HZB Newsroom

Search results for: Keyword: BESSY II

  • <p>The image shows details such as the vacuole of the parasites (colored in blue and green) inside an infected blood cell.</p>
    Science Highlight
    30.10.2019
    X-ray microscopy at BESSY II reveals how antimalaria-drugs might work
    Malaria is one of the most threatening infectious diseases in the world. An international team has now been able to investigate malaria pathogens in red blood cells in vivo using the BESSY II X-ray microscope and the ALBA and ESRF synchrotron sources. The scientists reveal the mechanisms used by active substances to attack the pathogen. This could contribute to improve treatment strategies and drug design. [...]
  • <p>The illustration demonstrates skyrmions in one of their Eigen modes (clockwise).</p>
    Science Highlight
    15.10.2019
    Dynamic pattern of Skyrmions observed
    Tiny magnetic vortices known as skyrmions form in certain magnetic materials, such as Cu2OSeO3. These skyrmions can be controlled by low-level electrical currents – which could facilitate more energy-efficient data processing. Now a team has succeeded in developing a new technique at the VEKMAG station of BESSY II for precisely measuring these vortices and observing their three different predicted characteristic oscillation modes (Eigen modes). [...]
  • <p>The aim of Marcel Risch&rsquo;s current project at HZB is to investigate the mechanism by which oxygen forms when water is split catalytically.</p>
    Portrait
    19.09.2019
    FOCUS TOPIC: From MIT to Wannsee

    For Marcel Risch, it feels like a homecoming: as a student, he had previously run experiments at the Berlin particle accelerator BESSY II. After working for several years at Massachusetts Institute of Technology (MIT) and then in Göttingen, he is now establishing his own group at HZB – supported by funding from the European Research Council. [...]

  • <p>Up to three indivudal drops may be placed onto the sample holder.</p>
    Science Highlight
    16.09.2019
    New sample holder for protein crystallography
    An HZB research team has developed a novel sample holder that considerably facilitates the preparation of protein crystals for structural analysis. A short video by the team shows how proteins in solution can be crystallised directly onto the new sample holders themselves, then analysed using the MX beamlines at BESSY II. A patent has already been granted and a manufacturer found. [...]
  • <p>Jean-Paul Kleider (co-chair conference committee; l.) congratulated Eike Gericke (r.) on his award.</p>
    News
    26.08.2019
    HZB doctoral student receives award at conference

    Eike Gericke gave a lecture at the 28th International Conference for Amorphous and Nanocrystalline Semiconductors (ICANS) which was awarded as "Best Student Talk". Gericke is a PhD student at the Institute of Nanospektroscopy at the HZB. [...]

  • <p>View into the experimental hall of BESSY II at HZB, Berlin.</p>
    News
    22.08.2019
    Physicists develop "time machine" for materials research

    Researchers from Martin Luther University Halle-Wittenberg (MLU), Freie Universität Berlin and Technische Universität München will develop fast electronics for data acquisition at BESSY II. It will make it possible to record the signal of all X-ray flashes generated during the experiment. This will enable researchers to evaluate the data more extensively - even retrospectively. The Federal Ministry of Education and Research (BMBF) is funding the project with two million euros. [...]

  • <p>The rotary sample table turns around its axis at several hundred revolutions per second with extreme precision.</p>
    Science Highlight
    21.08.2019
    World record in tomography: Watching how metal foam forms
    An international research team at the Swiss Light Source (SLS) has set a new tomography world record using a rotary sample table developed at the HZB. With 208 three-dimensional tomographic X-ray images per second, they were able to document the dynamic processes involved in the foaming of liquid aluminium. The method is presented in the journal Nature Communications. [...]
  • <p>A team of researchers examined an ancient papyrus with a supposed empty spot. With the help of several methods, they discovered which signs once stood in this place and which ink was used.</p>
    Science Highlight
    14.08.2019
    Archaeology at BESSY II: “Invisible ink” on antique Nile papyrus revealed
    Researchers from the Egyptian Museum and Papyrus Collection, Berlin universities and Helmholtz-Zentrum Berlin studied a small piece of papyrus that was excavated on the island of Elephantine on the River Nile a little over 100 years ago. The team used serval methods including non-destructive techniques at BESSY II. The researchers’ work, reported in the Journal of Cultural Heritage, blazes a trail for further analyses of the papyrus collection in Berlin. [...]
  • <p>The new german russian undulator beamline at BESSY II</p>
    News
    13.08.2019
    German Russian collaboration further strengthened at HZB
    HZB physicist Jaime Sánchez-Barriga establishes a "Helmholtz-RSF Joint Research Group". Over the next three years he will receive additional funding from the Helmholtz Association and the Russian Science Foundation (RSF) to investigate magnetic quantum materials for future information technologies with partners from the Lomonosov State University in Moscow. In particular, the funding should also enable the exchange and training of young scientists. [...]
  • <p>At the MX-Beamlines at BESSY II, Gottfried Palm, Gert Weber and Manfred Weiss could solve the 3D structure of MHETase.</p>
    News
    30.07.2019
    FOCUS TOPIC: Using BESSY II to combat plastic waste
    Plastics are excellent materials: extremely versatile and almost eternally durable. But this is also exactly the problem, because after only about 100 years of producing plastics, plastic particles are now found everywhere – in groundwater, in the oceans, in the air, and in the food chain.

    [...]

  • <p class="MsoCommentText">The photomontage shows a sample of solid, pure niobium before coating (left), and coated with a thin layer of Nb<sub>3</sub>Sn (right).</p>
    Science Highlight
    15.07.2019
    Accelerator physics: alternative material investigated for superconducting radio-frequency cavity resonators
    In modern synchrotron sources and free-electron lasers, superconducting radio-frequency cavity resonators are able to supply electron bunches with extremely high energy. These resonators are currently constructed of pure niobium. Now an international collaboration has investigated the potential advantages a niobium-tin coating might offer in comparison to pure niobium. [...]
  • <p>An X-ray pulse probes the delocalization of iron 3d electrons onto adjacent ligands.</p>
    Science Highlight
    09.07.2019
    Charge transfer within transition-metal dyes analysed
    Transition-metal complexes in dye-based solar cells are responsible for converting light into electrical energy. A model of spatial charge separation within the molecule has been used to describe this conversion. However, an analysis at BESSY II shows that this description of the process is too simple. For the first time, a team there has investigated the fundamental photochemical processes around the metal atom and its ligands. The study has now been published in “Angewandte Chemie, international Edition” and is displayed on the cover. [...]
  • <p>When illuminated by the synchrotron light, nickel emits x-rays itself due to the decay of valence electrons. The number of emitted photons reduces when increasing the temperature from room temperature (left) to 900&deg;C (right).</p>
    Science Highlight
    28.06.2019
    Utrafast magnetism: electron-phonon interactions examined at BESSY II
    How fast can a magnet switch its orientation and what are the microscopic mechanisms at play ? These questions are of first importance for the development of data storage and computer chips. Now, an HZB team at BESSY II has for the first time been able to experimentally assess the principal microscopic process of ultra-fast magnetism. The methodology developed for this purpose can also be used to investigate interactions between spins and lattice oscillations in graphene, superconductors or other (quantum) materials. [...]
  • <p>Experiments at the femtoslicing facility of BESSY II revealed the ultrafast angular momentum flow from Gd and Fe spins to the lattice via orbital moment during demagnetization of GdFe alloy.</p>
    Science Highlight
    10.05.2019
    Laser-driven Spin Dynamics in Ferrimagnets: How does the Angular Momentum flow?
    When exposed to intense laser pulses, the magnetization of a material can be manipulated very fast. Fundamentally, magnetization is connected to the angular momentum of the electrons in the material. A team of researchers led by scientists from the Max Born Institute for Nonlinear Optics and Short Pulse Spectroscopy (MBI) has now been able to follow the flow of angular momentum during ultrafast optical demagnetization in a ferrimagnetic iron-gadolinium alloy at the femtoslicing facility of BESSY II. Their results are helpful to understand the fundamental processes and their speed limits. The study is published in Physical Review Letters. [...]
  • <p>Tomography of a lithium electrode in its initial condition.</p>
    Science Highlight
    06.05.2019
    3D tomographic imagery reveals how lithium batteries age
    Lithium batteries lose amp-hour capacity over time. Microstructures can form on the electrodes with each new charge cycle, which further reduces battery capacity. Now an HZB team together with battery researchers from Forschungszentrum Jülich, the University of Munster, and partners in China have documented the degradation process of lithium electrodes in detail for the first time. They achieved this with the aid of a 3D tomography process using synchrotron radiation at BESSY II (HZB) as well at the Helmholtz-Zentrum Geesthacht (HZG). Their results have been published open access in the scientific journal "Materials Today". [...]
  • <p>SnSe is a highly layered orthorhombic structure. SnSe undergoes a phase transition of second order at 500&deg;C with an increase of the crystal symmetry from space group Pnma (left) to Cmcm (right).</p>
    Science Highlight
    24.04.2019
    High-efficiency thermoelectric materials: new insights into tin selenide
    Tin selenide might considerably exceed the efficiency of current record holding thermoelectric materials made of bismuth telluride. However, it was thought its efficiency became enormous only at temperatures above 500 degrees Celsius. Now measurements at the BESSY II and PETRA III synchrotron sources show that tin selenide can also be utilised as a thermoelectric material at room temperature – so long as high pressure is applied. [...]
  • <p>The enzyme MHETase is a huge and complex molecule. MHET-molecules from PET plastic dock at the active site inside the MHETase and are broken down into their basic building blocks.</p>
    Science Highlight
    12.04.2019
    "Molecular scissors" for plastic waste
    A research team from the University of Greifswald and Helmholtz-Zentrum-Berlin (HZB) has solved the molecular structure of the important enzyme MHETase at BESSY II. MHETase was discovered in bacteria and together with a second enzyme - PETase - is able to break down the widely used plastic PET into its basic building blocks. This 3D structure already allowed the researchers to produce a MHETase variant with optimized activity in order to use it, together with PETase, for a sustainable recycling of PET. The results have been published in the research journal Nature Communications. [...]
  • <p>At the end of his contribution, Phillippe Wernet makes a great arch from the past (Opticae Thesaurus, 1572) of research with light to the future.</p>
    Science Highlight
    02.04.2019
    HZB contributions to special edition on Ultrafast Dynamics with X-ray Methods
    In the new special issue of the "Philosophical Transactions of the Royal Society of London", internationally renowned experts report on new developments in X-ray sources and ultrafast time-resolved experiments. HZB physicists have also been invited to contribute. [...]
  • <p>Dr. Godehard W&uuml;stefeld was awarded the Horst Klein Research Prize.</p> <p></p> <p></p>
    News
    25.03.2019
    Godehard Wüstefeld receives the Horst Klein Research Prize
    The physicist Dr. Godehard Wüstefeld was awarded the Horst Klein Research Prize at the annual conference of the German Physical Society. The award recognizes his outstanding scientific achievements in accelerator physics in the development of BESSY II and BESSY VSR. [...]
  • <p>Water molecules are excited with X-ray light (blue). From the emitted light (purple) information on H-bonds can be obtained.</p>
    Science Highlight
    20.02.2019
    Water is more homogeneous than expected
    In order to explain the known anomalies in water, some researchers assume that water consists of a mixture of two phases even under ambient conditions. However, new X-ray spectroscopic analyses at BESSY II, ESRF and Swiss Light Source show that this is not the case. At room temperature and normal pressure, the water molecules form a fluctuating network with an average of 1.74 ± 2.1% donor and acceptor hydrogen bridge bonds per molecule each, allowing tetrahedral coordination between close neighbours. [...]
  • <p>More than 250 invited guests celebrated the tenth anniversary of HZB on 18 February at the TIPI at the Chancellery.</p>
    News
    18.02.2019
    10 Years of Helmholtz-Zentrum Berlin: A strong partner in the scientific landscape

    Helmholtz-Zentrum Berlin für Materialien und Energie (HZB) is celebrating its tenth anniversary on 18 February 2019 with around 250 invited guests from science, politics and industry. The Centre is one of the world's top institutions and makes a decisive contribution to Berlin as a location for cutting-edge research. This was emphasized by Michael Müller, Governing Mayor of Berlin, in reference to the anniversary. [...]

  • <p>The cones represents the magnetization of the nanoparticles. In the absence of electric field (strain-free state) the size and separation between particles leads to a random orientation of their magnetization, known as superparamagnetism</p>
    Science Highlight
    14.02.2019
    Spintronics by “straintronics”: Superferromagnetism with electric-field induced strain
    Data storage in today’s magnetic media is very energy consuming. Combination of novel materials and the coupling between their properties could reduce the energy needed to control magnetic memories thus contributing to a smaller carbon footprint of the IT sector. Now an international team led by HZB has observed at the HZB lightsource BESSY II a new phenomenon in iron nanograins: whereas normally the magnetic moments of the iron grains are disordered with respect each other at room temperature, this can be changed by applying an electric field: This field induces locally a strain on the system leading to the formation of a so-called superferromagnetic ordered state. [...]
  • News
    15.01.2019
    Two new Helmholtz Young Investigator Groups will start in 2019

    Starting in 2019, Helmholtz-Zentrum Berlin (HZB) will be establishing two new Helmholtz Young Investigator Groups and thereby strengthening its competencies in catalysis research. The Helmholtz Association will be funding each group with 150,000 euros annually over a period of five years, and HZB will be matching that sum with its own funds. [...]

  • <p>Lena Gra&szlig; has received an award by GBM for her master thesis.</p>
    News
    20.12.2018
    Outstanding master thesis on the structure and function of a bacterial enzyme honoured
    On December 17, 2018, Lena Graß, a PhD student from the Structural Biochemistry Group at Freie Universität Berlin, was awarded the Master Prize of the Gesellschaft für Biochemie und Molekularbiologie e.V. (Society for Biochemistry and Molecular Biology) (GBM). For her master thesis at Freie Universität Berlin and the MX beamlines of BESSY II, she deciphered the structure and function of a so-called RNA helicase. [...]
  • <p>The Ernst Eckhard Koch Prize went to Dr. Victoriia Saveleva (right) for her work on catalysts.</p>
    News
    12.12.2018
    Ernst Eckhard Koch Prize and Synchrotron Radiation Innovation Award
    On December 6, 2018, the Association of Friends of Helmholtz-Zentrum Berlin awarded the Ernst Eckhard Koch Prize for an outstanding doctoral thesis in the field of research with synchrotron radiation at the HZB or at DESY as well as the European Innovation-Award on Synchrotron Radiation. The award ceremonies took place during the 10th User Meeting at the HZB. [...]
  • <p>Photocathode in superconducting photoinjector system.</p>
    Science Highlight
    07.12.2018
    Milestone for bERLinPro: photocathodes with high quantum efficiency
    A team at the HZB has improved the manufacturing process of photocathodes and can now provide photocathodes with high quantum efficiency for bERLinPro. [...]
  • <p>From left to right: Prof. Dr. Jan L&uuml;ning (HZB, design. GF), Dr. Roland Steitz (HZB), H.E. Dr. Khaled TOUKAN (Chairman of Jordan Atomic Energy Commission), Dr. Antje Vollmer (HZB), Mr Akram Hayjeneh (Jordan Embassy in Berlin), Dr. Samer Kahook (Manager of JRTR Jordan Atomic Energy Commission).</p>
    News
    04.12.2018
    Delegation from Jordan visited the HZB
    The Helmholtz-Zentrum Berlin (HZB) will intensify its cooperation with Jordanian large-scale research facilities. This was agreed between Prof. Dr. Jan Lüning and representatives of a high-ranking Jordanian research delegation, which visited the HZB at the end of November 2018.  [...]
  • News
    20.11.2018
    User operation restarted at BESSY II
    On 20 November 2018, user operation of BESSY II restarted after a longer shutdown and maintenance period. The electron storage ring was shut down on July 30, 2018 to install or replace important components. [...]
  • <p>Prof. Efim Gluskin headed the accelerator physics department at Advanced Photon Source from 2004 to 2010 and continues to be active in undulator development.</p>
    News
    20.11.2018
    D-Lecture on 30th November 2018: Undulators for existing and future light sources
    Prof. Efim Gluskin from the Argonne National Laboratory will present on 30th November 2018 his thoughts on Undulators for existing and future light sources. After the presentation we will have time for informal discussion with "mulled wine and gingerbread" in the BESSY foyer. [...]
  • <p>The illustration shows a molecule with an iron atom at its centre, bound to 4 CN groups and a bipyridine molecule. The highest occupied iron orbital is shown as a green-red cloud. As soon as a cyan group is present, the outer iron orbitals are observed to delocalize so that electrons are also densely present around the nitrogen atoms.</p> <p></p>
    Science Highlight
    14.11.2018
    Transition metal complexes: mixed works better
    A team at BESSY II has investigated how various iron-complex compounds process energy from incident light. They were able to show why certain compounds have the potential to convert light into electrical energy. The results are important for the development of organic solar cells. The study has now been published in the journal PCCP, and its illustration selected for the cover. [...]
  • <p>The data show that In the case of the two-layer graphene, a flat part of bandstructure only 200 milli-electron volts below the Fermi energy.</p>
    Science Highlight
    10.11.2018
    Graphene on the way to superconductivity
    Scientists at HZB have found evidence that double layers of graphene have a property that may let them conduct current completely without resistance. They probed the bandstructure at BESSY II with extremely high resolution ARPES and could identify a flat area at a surprising location. [...]
  • <p>Doped Diamond Foam. </p>
    Science Highlight
    18.10.2018
    Nanodiamonds as photocatalysts
    Diamond nanomaterials are considered hot candidates for low-cost photocatalysts. They can be activated by light and can then accelerate certain reactions between water and CO2 and produce carbon-neutral "solar fuels". The EU project DIACAT has now doped such diamond materials with boron and shown at BESSY II how this could significantly improve the photocatalytic properties. [...]
  • <p>The STM image shows blue phosphorus on a gold substrate. The calculated atomic positions of the slightly elevated P atoms are shown in blue, the lower lying ones in white. Groups of six elevated P atoms appear as triangles. </p>
<p><strong> </strong></p>
    Science Highlight
    15.10.2018
    Blue phosphorus - mapped and measured for the first time
    Until recently, the existence of "blue" phosphorus was pure theory: Now an HZB team was able to examine samples of blue phosphorus at BESSY II for the first time and confirm via mapping of their electronic band structure that this is actually this exotic phosphorus modification. Blue phosphorus is an interesting candidate for new optoelectronic devices. The results have been published in Nano Letters. [...]
  • <p>Principle of a silicon singlet fission solar cell with incorporated organic crystalls<br /></p>
    Science Highlight
    02.10.2018
    HZB researchers boost the efficiency of silicon solar cells
    The efficiency of a solar cell is one of its most important parameters. It indicates what percentage of the solar energy radiated into the cell is converted into electrical energy. The theoretical limit for silicon solar cells is 29.3 percent due to physical material properties. In the journal Materials Horizons, researchers from Helmholtz-Zentrum Berlin (HZB) and international colleagues describe how this limit can be abolished. The trick: they incorporate layers of organic molecules into the solar cell. These layers utilise a quantum mechanical process known as singlet exciton fission to split certain energetic light (green and blue photons) in such a way that the electrical current of the solar cell can double in that energy range. [...]
  • <p>The laser pulse (red) generates heat in the thin-film system. The physical mechanisms by which the heat is distributed can be analysed by temporally resolved X-ray diffraction experiments. </p>
    Science Highlight
    21.08.2018
    Future information technologies: nanoscale heat transport under the microscope
    A team of researchers from the Helmholtz-Zentrum Berlin (HZB) and the University of Potsdam has investigated heat transport in a model system comprising nanometre-thin metallic and magnetic layers. Similar systems are candidates for future high-efficiency data storage devices that can be locally heated and rewritten by laser pulses (Heat-Assisted Magnetic Recording). Measurements taken with extremely short X-ray pulses have now shown that the heat is distributed a hundred times slower than expected in the model system. The results are published in Nature Communications. [...]
  • <p>Granules of aluminium (grey) become a metallic foam when heated.The tompgraphies document the evolution of pores with time. </p>
    Science Highlight
    08.08.2018
    World record: Fastest 3D tomographic images at BESSY II
    An HZB team has developed an ingenious precision rotary table at the EDDI beamline at BESSY II and combined it with particularly fast optics. This enabled them to document the formation of pores in grains of metal during foaming processes at 25 tomographic images per second - a world record. [...]
  • <p>Manganese compounds also play a role as catalysts in photosynthesis. </p>
    Science Highlight
    31.07.2018
    Insight into catalysis through novel study of X-ray absorption spectroscopy
    An international team has made a breakthrough at BESSY II. For the first time, they succeeded in investigating electronic states of a transition metal in detail and drawing reliable conclusions on their catalytic effect from the data. These results are helpful for the development of future applications of catalytic transition-metal systems. The work has now been published in Chemical Science, the Open Access journal of the Royal Society of Chemistry. [...]
  • <div id="infowindow_7baf4b2e2c_2d5f6a_2d11d2_2d8f20_2d0000c0e166dc_7d" class="infowindow_7baf4b2e2c_2d5f6a_2d11d2_2d8f20_2d0000c0e166dc_7d infoValueContainer">
<div class="readOnlyInfoValue">The experimental Hall of BESSY II. HZB / D.Butensch&ouml;n&nbsp;</div>
</div>
    News
    30.07.2018
    Shutdown BESSY II: work has started
    As of 30 July 2018, BESSY II will be down for several weeks. In the summer shutdown, important components in the storage ring tunnel will be replaced and overhauled. The first conversion work for the BESSY VSR project also begins.  Upgrading BESSY II into a variable-pulse-length storage ring (BESSY-VSR) will provide unique experimental conditions for researchers worldwide. The shutdown lasts until 30 September 2018, and user operation will recommence on 30 October 2018. [...]
  • <p>Nils M&aring;rtensson, University of Uppsala, cooperates closely with HZB.<strong><br /></strong></p>
    News
    09.07.2018
    Helmholtz International Fellow Award for Nils Mårtensson
    The Helmholtz Association has presented the Swedish physicist Nils Mårtensson with a Helmholtz International Fellow Award.  The synchrotron expert of the University of Uppsala, who heads the nobel comitee for physics, cooperates closely with the HZB-Institute Methods and Instrumentation for Synchrotron Radiation Research. [...]
  • <p>Ra&uuml;l Garcia Diez is awarded the poster prize. </p>
    News
    26.06.2018
    Dr. Raül Garcia Diez received poster award at the international synchrotron conference SRI 2018
    HZB researcher introduces unique operando characterization by soft X-ray spectroscopy [...]
  • <p>Laser light for writing and erasing information &ndash; a strong laser pulse disrupts the arrangement of atoms in an alloy and creates magnetic structures (left). A second, weaker, laser pulse allows the atoms to return to their original lattice sites (right). </p>
    Science Highlight
    18.04.2018
    Writing and deleting magnets with lasers
    Scientists at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) together with colleagues from the Helmholtz-Zentrum Berlin (HZB) and the University of Virginia in Charlottesville, USA have found a way to write and delete magnets in an alloy using a laser beam – a surprising effect. The reversibility of the process opens up new possibilities in the fields of material processing, optical technology, and data storage. [...]
  • News
    22.03.2018
    LEAPS join forces with the European Commission to strengthen Europe’s leading role in science
    “A world where European science is a catalyst for solving global challenges, a key driver for competitiveness and a compelling force for closer integration and peace through scientific collaboration.” This is the vision of LEAPS, League of European Accelerator-based Photon Sources, on which the LEAPS Strategy 2030 is based. Director Jean-David Malo, DG Research and Innovation, received the strategy today at the Bulgarian Presidency Flagship Conference on Research Infrastructures. [...]
  • <p>Dr. Nele Thielemann-K&uuml;hn was awarded the Innomag Dissertation Award 2018.</p>
    News
    19.03.2018
    HZB scientist got the dissertation prize at the spring conference of the Deutsche Physikalische Gesellschaft
    Dr. Nele Thielemann-Kühn was awarded the dissertation prize of the magnetism research group at the spring conference of the Deutsche Physikalische Gesellschaft (German physical society/DPG) in Berlin. The prize is awarded for outstanding research in the field of magnetism.  [...]
  • <p>A synchrotron source point image of a bending magnet of the Twin Orbit modus. The second orbit closes after three revolution and is winding around the standard orbit at the center.</p>
    Science Highlight
    15.03.2018
    Twin Orbit operation successfully tested at BESSY II
    The first “Twin Orbit User Test week” at BESSY II in February 2018 was a big success and can be considered as an important step towards real user operation. Physicists at Helmholtz-Zentrum Berlin have been able to store two separate electron beams in one storage ring. The twin orbit operation mode can serve users with different needs of the time structure of the photon pulses simultaneously and offers elegant options regarding the future project BESSY VSR. [...]
  • <p>PCN nanolayers under sunlight can split water. </p>
    Science Highlight
    28.02.2018
    Solar–to-hydrogen conversion: nanostructuring increases efficiency of metal-free photocatalysts by factor eleven
    Polymeric carbon nitrides exhibit a catalytic effect in sunlight that can be used for the production of hydrogen from solar energy. However, the efficiency of these metal-free catalysts is extremely low. A team at the Tianjin University in China, in collaboration with a group at the Helmholtz-Zentrum Berlin, has increased the catalytic efficiency of these polymeric carbon nitrides by a factor eleven through a simple process resulting in a larger surface area. The paper was published in the journal Energy & Environmental Science. [...]
  • <p>Dr. Raul Garcia Diez was awarded for his PhD Thesis with the Dissertationspreis Adlershof 2017.</p>
    News
    20.02.2018
    Dr. Raul Garcia Diez wins the Dissertationspreis Adlershof 2017
    With his talk on the properties of nanoparticles and how they can be measured more accurately at BESSY II, Dr. Raul Garcia Diez convinced the jury and was awarded the Dissertationspreis Adlershof 2017. Humboldt-Universität zu Berlin, IGAFA e. V. and the WISTA MANAGEMENT GmbH are the sponsors of this prize endowed with 3000 Euros. Garcia Diez completed his PhD in 2017 at PTB and TU Berlin and is now active as a post-doctoral researcher at HZB. [...]
  • <p>Electrons with differing energies are emitted along various crystal axes in the interior of the sample as well as from the surface. These can be measured with the angular-resolved photoemission station (ARPES) at BESSY II. Left image shows the sample temperature at 25 K, right at only 1 K. The energy distribution of the conducting and valence band electrons can be derived from these data. The surface remains conductive at very low temperature (1 K). </p>
    Science Highlight
    06.02.2018
    40-year controversy in solid-state physics resolved
    An international team at BESSY II headed by Prof. Oliver Rader has shown that the puzzling properties of samarium hexaboride do not stem from the material being a topological insulator, as it had been proposed to be. Theoretical and initial experimental work had previously indicated that this material, which becomes a Kondo insulator at very low temperatures, also possessed the properties of a topological insulator. The team has now published a compelling alternative explanation in Nature Communications, however. [...]
  • <p>The new building block (left, red outline) comprises two modified starting molecules connected to each other by a silver atom (blue). This leads to complex, semiregular tessellations (right, microscope image). </p>
    Science Highlight
    23.01.2018
    User experiment at BESSY II: Complex tessellations, extraordinary materials
    Simple organic molecules form complex materials through self-organization [...]
  • <p>Simplified cross-section of a perovskite solar cell: the perovskite layer does not cover the entire surface, but instead exhibits holes. The scientists could show that a protective layer is being built up which prevents short circuits.</p>
    Science Highlight
    15.01.2018
    Perovskite solar cells: perfection not required!
    Experiments at BESSY II reveal why even inhomogeneous perovskite films are highly functional  [...]
  • <p>The Innovation Award of Freundeskreis HZB was given to a team of DESY, Hamburg. </p>
    News
    18.12.2017
    BER II and BESSY II User Meeting at HZB
    More than 600 scientists registered this year for the 9th annual BER II and BESSY II User Meeting from Wednesday to Friday, 13-15 December 2017. The Friends of Helmholtz-Zentrum Berlin recognised outstanding work in the field of synchrotron radiation with an Innovation Award, and the best doctoral dissertation with the Ernst-Eckard-Koch prize. [...]
  • <p>A short laser pulse pertubates magnetic order in dysprosium. This happens much faster if the sample had a antiferromagnetic order (left) compared to ferromagnetic order (right). </p>
    Science Highlight
    06.11.2017
    Future IT: Antiferromagnetic dysprosium reveals magnetic switching with less energy
    HZB scientists have identified a mechanism with which it may be possible to develop a form of magnetic storage that is faster and more energy-efficient. They compared how different forms of magnetic ordering in the rare-earth metal named dysprosium react to a short laser pulse. They discovered that the magnetic orientation can be altered much faster and with considerably less energy if the magnetic moments of the individual atoms do not all point in the same direction (ferromagnetism), but instead point are rotated against each other (anti-ferromagnetism). The study was published in Physical Review letters on 6. November 2017 and on the cover of the print edition. [...]
  • <p>At IUPAC 13th International Conference on Novel Materials and their Synthesis in October, 2017 at Nanjing Tech University, China, Prof. Norbert Koch was awarded for his research.</p>
    News
    01.11.2017
    “Distinguished Award 2017 for Novel Materials and their Synthesis” for Norbert Koch
    At the IUPAC NMS-XIII conference in Nanjing, Professor Dr. Norbert Koch has been awarded the "Distinguished Award 2017 for Novel Materials and their Synthesis "of IUPAC (International Union of Pure and Applied Chemistry) and of the Conference Committee. Koch received the award for his research on hybrid electronic materials and their interfaces in electronic and optoelectronic components. He is Professor at the Department of Physics at Humboldt-Universität zu Berlin, member of IRIS Adlershof and head of a joint research group at the Helmholtz-Zentrum Berlin. [...]
  • <p>The Bismut doping is enhanced from 0% (left) to 2.2% (right). Measurements at BESSY II show that this leads to increased bandgaps. </p>
    Science Highlight
    17.10.2017
    Missing link between new topological phases of matter discovered
    HZB-Physicists at BESSY II have investigated a class of materials that exhibit characteristics of topological insulators. During these studies they discovered a transition between two different topological phases, one of which is ferroelectric, meaning a phase in the material that exhibits spontaneous electric polarisation and can be reversed by an external electric field. This could also lead to new applications such as switching between differing conductivities. [...]
  • News
    02.10.2017
    The use coordination on a EU trip: promoting European light sources
    Synchrotrons are outstanding tools for studying materials, cells and even cultural assets. Yet, many researchers in Eastern Europe are unaware that they are entitled to use them. The EU project Calipsoplus supports potential users from these countries. [...]
  • <p>Sketch of the Photosystem II. </p>
    Science Highlight
    30.09.2017
    Novel soft X-ray spectrometer enables individual steps of photosynthetic water oxidation to be observed
    HZB scientists have developed a novel spectrometer at BESSY II that enables researchers to obtain detailed insights about catalytic processes in metalloenzymes. Their international collaboration was successful in delineating individual steps in the catalytic oxidation of water to dioxygen in photosystem II. They published their study in the journal Structural Dynamics. Photosystem II is a part of the of photosynthetic electron transport chain, a process that is responsible for the conversion of solar energy to chemical energy in plants, algae and cyanobacteria. [...]
  • <p>Scanning Tunneling Microscopy shows the regular corrugation pattern of graphene over clusters of gold.</p>
    Science Highlight
    18.09.2017
    The miracle material graphene: convex as a chesterfield
    Graphene possesses extreme properties and can be utilised in many ways. Even the spins of graphene can be controlled through use of a trick. This had already been demonstrated by a HZB team some time ago: the physicists applied a layer of graphene onto a nickel substrate and introduced atoms of gold in between (intercalation). The scientists now show why this has such a dramatic influence on the spins in a paper published in 2D Materials. As a result, graphene can also be considered as a material for future information technologies that are based on processing spins as units of information. [...]
  • News
    12.09.2017
    Breakthrough at EMIL: First undulator radiation in the CAT experiment
    When the EMIL laboratory (Energy-Materials In-Situ Laboratory Berlin) was ceremoniously inaugurated a year ago in the presence of Federal Minister for Research Johanna Wanka, it was a major milestone for energy materials research at HZB. Ever since, HZB has been building the system that will bring X-ray beams all the way from BESSY II to the EMIL apparatuses. Until the BESSY light is fully available, the scientists have been working with X-rays from a conventional laboratory source. Now, the beamline operators have succeeded in guiding the X-rays from Undulator UE48 in the BESSY II experimental hall to the CAT experiment in the EMIL laboratory. There, it was quantitatively measured using a focus measuring chamber. [...]
  • <p>Schematic of experimental setup for PEEM, the laser optics integrated sample holder and the sample.</p>
    Science Highlight
    25.08.2017
    Optical control of magnetic memory – new insights into fundamental mechanisms
    A research team at Helmholtz-Zentrum Berlin (HZB) has shown for the first time how laser modulation of magnetic properties in materials is influenced by thermal effects and how the process occurs under moderate experimental parameters. At the same time, the scientists discovered a previously unknown dependence on the thickness of the magnetic layer. This is an important clue for our theoretical understanding of optically controlled magnetic data storage media. The findings are published today in the journal Scientific Reports. [...]
  • <p>Kickoff with a meeting on 19 June 2017:  Prof. Borisenko, Dr. Rienks, Prof. B&uuml;chner (all IFW), the leader of the Young Investigator Group Dr. Fedorov; Dr. Varykhalov and apl. Prof. Rader (both HZB) (from left to right). </p>
    News
    03.07.2017
    Kickoff for Joint Lab with IFW Dresden
    The Leibniz Institute for Solid State and Materials Research Dresden (IFW) and Helmholtz-Zentrum Berlin (HZB) have created a Joint Lab for “functional quantum materials” and under its umbrella a Young Investigator Group. [...]
  • News
    20.06.2017
    EU project CALIPSOplus has started for free access to European light sources
    The EU is providing ten million euros in funding for the project CALIPSOplus, submitted by 19 European light sources. The project consortium, of which Helmholtz-Zentrum Berlin is a member, kicked off on May 2017. CALIPSOplus is aimed at promoting the international exchange of scientists and transnational access to the light sources in Europe. Other priorities are to integrate the relatively less active regions of Europe and to initiate research projects with small and mid-sized companies.  [...]
  • <p>This optical zone melting furnace is producing large single crystals. </p>
    News
    19.06.2017
    New at Campus Wannsee: CoreLab Quantum Materials
    Helmholtz-Zentrum Berlin has expanded its series of CoreLabs for energy materials research. In addition to the five established CoreLabs, it has now set up a CoreLab for Quantum Materials. A research team from the HZB Institute for Quantum Phenomena in New Materials is responsible for the CoreLab and its modern equipment. The CoreLab is also open to experimenters from other research institutes.  [...]
  • News
    14.06.2017
    New lab for electrochemical interfaces at BESSY II
    The Helmholtz-Zentrum Berlin (HZB) is establishing a joint lab together with the Max Planck Society (MPS) to study electrochemical phenomenon at solid/liquid interfaces. The Berlin Joint Lab for Electrochemical Interfaces, or BElChem for short, will employ X-rays from BESSY II to analyse materials for renewable energy production. [...]
  • <p>SEM-images of 3D graphene with different pore size (a,b,c, scale = 1&mu;m). Optical properties (d,e,f) change with pore size. </p>
    News
    18.05.2017
    Three-dimensional graphene: experiment at BESSY II shows that optical properties are tuneable
    An international research team has for the first time investigated the optical properties of three-dimensional nanoporous graphene at the IRIS infrared beamline of the BESSY II electron storage ring. The experiments show that the plasmonic excitations (oscillations of the charge density) in this new material can be precisely controlled by the pore size and by introducing atomic impurities. This could facilitate the manufacture of highly sensitive chemical sensors. [...]
  • News
    16.05.2017
    New Helmholtz Young Investigator Group for electrochemical conversion of carbon dioxide at HZB has started
    Dr. Matthew T. Mayer is setting up a Helmholtz Young Investigator Group in the field of energy materials research at HZB. He investigates how carbon dioxide and water can be converted electrochemically into hydrocarbons such as methane and methanol by using renewable energies. Matthew Mayer will receive 300,000 euros per year over a period of five years. [...]
  • News
    15.05.2017
    HZB and Freie Universität Berlin establish the joint research group “X-Ray Microscopy” for studying complex cellular processes
    In May this year, the joint research group “X-Ray Microscopy” was launched, combining the expertise of teams led by Prof. Dr. Gerd Schneider (Helmholtz-Zentrum Berlin) and Prof. Dr. Helge Ewers (Freie Universität Berlin). While Ewers’ group contributes its experience in the field of optical microscopy and biological research, the HZB workgroup is responsible for X-ray microscopy at the synchrotron source BESSY II. The two methods help researchers to gain a detailed insight into the processes taking place inside cells. [...]
  • <p>The YIW2017's dynamic discussions crowd.</p>
    News
    04.05.2017
    The Young Investigators Workshop 2017 on Dynamic Pathways in Multidimensional Landscapes
    24 scientists from various countries participated in the Young Investigators Workshop 2017 on Dynamic Pathways in Multidimensional Landscapes in Grainau am Eibsee in the Bavarian Alps. This workshop which was organized by Professor Alexander Föhlisch was dedicated to study the research topics of the Helmholtz Virtual Institute 419. It included both experimental and theoretical projects on molecular and chemical dynamics, phase transitions and switching as well as fundamental light-matter interaction. [...]
  • <p>Comparison of the same specimen at the old Beamline (left) and the new HZB-XM-Beamline (right). </p>
    News
    03.05.2017
    X-Ray microscopy: HZB-TXM is back in operation
    The X-ray microscope (HZB-TXM) is back in operation. The TXM offers significantly  better quality images compared to the former X-ray microscopy station. [...]
  • <p>A magnetic field pulse switches the initial vortex state to &ldquo;onion state&rdquo; with two walls. In the subsequent magnetic snapshots the domain wall motion is shown. After 58 ns both walls meet and annihilate, thus completing the switching process into the opposite sense of rotation. </p>
    News
    19.04.2017
    Green IT: New switching process in non-volatile spintronics devices
    Physicists achieved a robust and reliable magnetization switching process by domain wall displacement without any applied fields. The effect is observed in tiny asymmetric permalloy rings and may pave the way to extremely efficient new memory devices. The results have been published in Physical Review Applied, highlighted as an Editors' Suggestion.
    [...]
  • <p>The experimental data show, how a light pulse dissociates a hydrogen nucleus from the nitrogen atom without destroying important bonds within the molecule. </p>
    Science Highlight
    07.04.2017
    Proton transfer: Researcher find mecanism to protect biomolecules against light induced damage
    A team at the Helmholtz-Zentrum Berlin (HZB) together with researchers in Sweden and the USA has analysed a mecanism which protects biomolecules such as the DNA against damage by light. They observed how the energy of incoming photons can be absorbed by the molecule without destroying important bonds. The experiments took place at the Linac Coherent Light Source (LCLS) free-electron laser in California as well as the BESSY II synchrotron source at the HZB in Berlin, where with resonant inelastic X-ray-diffraction a very sensitive method is available. [...]
  • News
    16.03.2017
    20 participants join the first Photon School at HZB
    From 14 to 24 March, the first Photon School takes place at HZB. 20 students from 8 countries get an unique opportunity for a first-hand training covering a wide range of experimental and theoretical methods for probing the molecular structure, function, and dynamics of complex material systems. Leading experts from all fields of spectroscopy give lectures, share their latest results, and present future research strategies. [...]
  • <p>Robert Seidel leads the Young Investigator Group Operando Interfacial Photochemistry. </p>
    Science Highlight
    09.03.2017
    Highly sensitive method for detecting ion pairs in aqueous solution developed

    Scientists of the Helmholtz-Zentrum Berlin, Freie Universität Berlin, Universität Heidelberg, and the University of Chemistry and Technology Prague have empirically detected a very specialised type of electron transfer in an aqueous salt solution, one which had only been predicted theoretically up to now. Based on these results, they now expect to have an extremely sensitive method for detecting ion pairs in solutions.

    [...]

  • <p>Dr. Matthew Mayer</p>
    News
    22.12.2016
    Helmholtz-Zentrum Berlin is establishing a Helmholtz Young Investigator Group for electrochemical conversion of carbon dioxide
    Dr. Matthew T. Mayer from the École Polytechnique Fédérale de Lausanne (EPFL), Switzerland, will be putting together a Helmholtz Young Investigator Group in the field of energy materials research at HZB. He will be researching into how carbon dioxide and water can be converted electrochemically into hydrocarbons such as methane and methanol using renewable energies. Matthew Mayer will receive 300,000 euros per year over a period of five years for establishing and running his Young Investigator Group. [...]
  • <p>Diatomic nickel ions (gray) are captured at cryogenic temperatures in an RF ion trap; cold helium gas (blue) serves to dissipate the heat. The magnetic field orients the ions. </p>
<p> </p>
    Science Highlight
    28.11.2016
    A new record at BESSY II: ten million ions in an ion trap cooled for the first time to 7.4 K
    Magnetic ground states spectroscopically ascertained
    [...]
  • <p>The new Energy Materials In-Situ Laboratory (EMIL) offers direct access to hard and soft synchrotron x-ray radiation to investigate the chemical and electronic properties of catalysts and other energy materials. <br /></p>
    News
    21.11.2016
    Research for Germany’s energy transition: EMIL@BESSY II approved for the Kopernikus “Power-to-X” project
    The storage of excess solar and wind power is one of the greatest challenges in Germany’s energy transition. To address this, the German Federal Ministry for Education and Research (BMBF) has created the “Power-to-X” (P2X) project under its Kopernikus programme. P2X will advance research into converting electrical energy from the sun and wind into basic chemical compounds, gaseous energy media, and fuels. A total of 17 research institutions, 26 industrial enterprises, as well as three non-governmental organisations are involved, and the BMBF is funding the first development phase of the project at a level of 30 million Euros. The Helmholtz-Zentrum Berlin will participate in the planned research, using the advanced synthesis capabilities and the BESSY II synchrotron-based X-ray characterization tools at the recently inaugurated EMIL@BESSY II laboratory complex. [...]
  • <p>The x-ray reflectitivityof the Mo/Si multilayer mirror is changed via a time delayed laserpulse. </p>
    Science Highlight
    14.11.2016
    Methods at BESSY II: Versatile cross-correlator for ultrafast X-ray experiments
    Particularly in the soft X-ray range experimentalists are lacking a broadband method to correlate ultrashort X-ray and laser pulses in space and time. Only recently, a team from Helmholtz-Zentrum Berlin and the University of Potsdam was able to achieve this by utilizing a standard molybdenum-silicon (Mo/Si) multilayer mirror at the FemtoSpeX facility at BESSY II. They use femtosecond laser pulses to modulate the multilayer period under the Bragg condition on a sub-picosecond up to nanosecond timescale which in turn strongly affects the mirror’s X-ray reflectivity. The presented Mo/Si cross-correlator works for the soft up to the hard X-ray regime as well as for a broad range of laser pump wavelengths (mid-IR to UV) and renders this technique as an easy to implement and versatile timing tool for various synchrotron- and lab-based pump-probe experiments. The results are published in the journal of "Structural Dynamics". [...]
  • <p>from left: Prof. Robert Schl&ouml;gl, Prof. Anke Kaysser-Pyzalla, Prof. Johanna Wanka, Prof. Otmar Wiestler, Dr. Jutta Koch-Unterseher, Thomas Frederking; Photo: HZB/D. Ausserhofer</p>
    News
    01.11.2016
    EMIL, a 2000-square-metre laboratory complex, has opened for research into new energy materials
    After three years of construction, the Energy Materials In-Situ Laboratory (EMIL) is now open. The new laboratory complex for researching energy materials, annexed to BESSY II in Berlin-Adlershof, was ceremonially inaugurated with the involvement of the Federal Minister of Research, Johanna Wanka, on 31 October 2016. At the new laboratory, which offers direct access to the brilliant light of the electron storage ring BESSY II, researchers are looking to synthesise and analyse materials for future renewable energy generation. Around 20 million euros were invested in the construction of the laboratory. [...]
  • <p>X-PEEM images show the orientation of magnetic domains in the permalloy film overlaid on the superconducting dot (dashed square) before (left image) and after the write process (right image). In this sample the domains (arrows, right image) are reorientied in a monopole pattern. </p>
    Science Highlight
    10.10.2016
    Future Information Technologies: New combinations of materials for producing magnetic monopoles
    An international collaboration at BESSY II has discovered a new method to inscribe exotic magnetic patterns such as magnetic monopoles into thin ferromagnetic films. Such unconventional orientation of magnetic domains might open a new path for the design of energy efficient data storage. The new materials system consists of regular arrays of superconducting YBaCuO-dots covered with an extremely thin permalloy film. A shortly applied external magnetic field leads to the creation of supercurrents within the superconducting dots. These currents produce a complex magnetic field pattern, which is inscribed into the permalloy film above. The results are published in Advanced Science. [...]
  • <p>The newly developed expert system was used to analyse 364 data sets of a specidfic protein crystal, soaked in different fragments.  </p>
    Science Highlight
    26.09.2016
    Advancing methodology at BESSY II: Automated evaluation speeds up the search for new active substance
    The macromolecular crystallography (MX) beamlines at the BESSY II X-ray source are specially designed to highly automated structural analyses of protein crystals. With up to now more than 2000 solved structures of protein molecules, these beamlines are by far the most productive ones in Germany and are in vigorous demand by groups from either an academic and industrial research area. Now teams from HZB and Philipps-Universität Marburg in Germany have automated the evaluation of data records as well. The newly developed expert system identifies small molecule fragments bound to proteins in the raw X-ray diffraction data. These fragments represent suitable starting points for the development of an active substance. Using a series of 364 samples, the collaborating partners demonstrated that the expert system works reliably and can speed up the search for a suitable active agents. [...]
  • <p>More than 100 experts did gather at the international conference "Dynamic Pathways in Multidimensional Landscapes", which was held in September in Berlin.</p>
    News
    19.09.2016
    VI-Conference "Dynamic Pathways in Multidimensional Landscapes 2016"
    Near the museum island, in the heart of Berlin, the International Conference "Dynamic Pathways in Multidimensional Landscapes 2016" has taken place last week. More than 100 international experts met at the Magnus-Haus of the German Physical Society from 12 -16 September 2016. [...]
  • <p>Cover: WILEY-VCH&nbsp;</p>
    Science Highlight
    15.09.2016
    Manual of characterisation techniques for thin-film solar cells published with the involvement of HZB researchers
    In August 2016, the second, enlarged edition of the reference book "Advanced Characterization Techniques for Thin-Film Solar Cells" appeared from renowned publisher WILEY-VCH. Co-editor is HZB researcher Dr. Daniel Abou-Ras. A total of eleven authors from HZB wrote chapters for this reference. It provides a comprehensive overview of many characterisation and modelling techniques that can be employed for solar cell materials and components. [...]
  • <p>A new generation of sensors: The scales of the petrified cone move upward against gravity, and on drying back to their starting positions. </p>
<p></p>
    News
    09.09.2016
    User research at BESSY II: How water moves glass
    In the realm of plants, capillary forces are a widely observed impetus for actuation. They are the physical basis for the expansion of porous materials during uptake of fluid. Such materials include the cones of conifers with their readily observable movement during drying or wetting. Scientists at the Chair of Biogenic Polymers of the Technical University Munich, located at the Science Center Straubing, have succeeded in retaining this plant-derived movement when the respective plant has been replaced by an artificial petrification process. Elaborate analyses at the synchrotron source BESSY II in Berlin showed that the internal structure of the pine cone was retained. Thereby, they laid the foundations for a new generation of sensoric materials. [...]
  • <p>Robert Seidel's results are important for the design of experiments and for the correct interpretation of data. </p>
    News
    31.08.2016
    Honoured with poster prize and introductory talk
    Mean free path of electron scattering in liquid water considerably shorter than supposed [...]
  • <p>Fabian Weber (right) is investigating the dynamics of electron processes within graphene-oxide quantum dots as a member of the team headed by Dr. Annika Bande (left). Quantum dots like these as catalysts could help make solar water splitting more efficient. Using Weber&rsquo;s theoretical model, a much greater amount of information can be obtained from the empirical data gathered by the group headed by Dr. Tristan Petit. </p>
    News
    01.08.2016
    Two Freigeist Fellows interweave their research at HZB
    Two Freigeist Fellows are conducting research at the HZB Institute for Methods of Material Development through support received from the Volkswagen Foundation. Theoretical chemist Dr. Annika Bande is modelling fast electron processes, while Dr. Tristan Petit is investigating carbon nanoparticles. Annika Bande has now been awarded an ancillary grant of an additional 150,000 Euros from the Volkswagen Foundation to fund another doctoral student position for three years. The doctoral research will connect the two Freigeist research projects with one another. [...]
  • <p>BFO has a perovskite crystal structure.</p>
    Science Highlight
    22.06.2016
    New effect on laser induced switching for higher data densities
    An international collaboration has now demonstrated a completely new approach to increase data density in storage media. They used ultra-short laser pulses to trigger a phase transition in the ferromagnetic material BaFeO3 (BFO). Experiments at the Femtospex facility at BESSY II of Helmholtz-Zentrum Berlin showed that by inducing this phase transition, magnetic domains can be easily manipulated. These magnetic domains are otherwise very stable and therefore suited for long-time data storage. The results have been published in Phys. Rev. Letters now. [...]
  • <p>The illustration shows how iodine (purple) is embedded between the organic layer and the metal, thus reducing adhesion. </p>
    Science Highlight
    22.06.2016
    User Community Science: Soft decoupling of organic molecules on metal
    An international team has discovered an elegant way to decouple organic nanosheets grown on metal surfaces. After iodine intercalation, measurements at the synchrotron source BESSY II of Helmholtz-Zentrum Berlin (HZB) showed that a network of organic molecules behaved almost as it was free-standing. The strong influence of the metal on the network was reduced. This opens up new ways to transfer organic nanostructures from metal surfaces onto more suitable substrates for molecular electronics.  The results have been published in “Angewandte Chemie”. [...]
  • <p>The nanostructured membrane has a honeycomb pattern with nanoholes of 68 nm in diameter. The nanoholes pin down the magnetic domains.</p>
    Science Highlight
    14.06.2016
    Spintronics: Resetting the future of Heat Assisted Magnetic Recording
    A HZB team has examined thin films of Dysprosium-Cobalt sputtered onto a nanostructured membrane at BESSY II. They showed that new patterns of magnetization could be written in a quick and easy manner after warming the sample to only 80 °Celsius, which is a much lower temperature as compared to conventional Heat Assisted Magnetic Recording systems. This paves the way to fast and energy efficient ultrahigh density data storage. The results are published now in the new journal Physical Review Applied. [...]
  • <p>Combining the results from radiative and non-radiative relaxation processes enabled a complete picture of the filled and unfilled energy levels to be obtained. </p>
    Science Highlight
    11.05.2016
    Ferrous chemistry in aqueous solution unravelled
    An HZB team has combined two different analytical methods at the BESSY II synchrotron source in order to extract more information about the chemistry of transition-metal compounds in solution. These kinds of compounds can act as catalysts to promote desirable reactions in energy materials, but their behaviour has not been completely understood thus far.  The team demonstrated how a detailed picture of the electronic states can be ascertained by systematically comparing all of the interactive electronic processes in a simple system of aqueous iron(II).  The results have now been published in Scientific Reports, the open access journal from Nature Group publishing. [...]
  • <p>The illustration depicts the characteristic spin orientation (arrows) of electrons in a topological insulator (below). Using an initial circular polarised laser pulse, the spins are excited and point up or down. This can be proven by a second linearly polarised laser pulse (above).</p>
    Science Highlight
    29.04.2016
    Spintronics for future information technologies: spin currents in topological insulators controlled
    An international team headed by HZB researcher Jaime Sánchez-Barriga has shown how spin-polarised currents can be initiated in a controlled manner within samples of topological insulator material. In addition, they were able to manipulate the orientation of the spins of these currents. They thereby demonstrated that this class of materials is suitable for data processing based on spin. The work has been published in the renowned periodical Physical Review B and was selected as “Editor’s Suggestion” article. [...]
  • News
    28.04.2016
    Helmholtz Virtual Institute International Conference "Dynamic Pathways in Multidimensional Landscapes" 2016
    We invite you to join the International Conference "Dynamic Pathways in Multidimensional Landscapes" which will take place in the heart of Berlin at the Magnus-Haus of the German Physical Society from September, 12th -16th, 2016. Now, the Online registration is open. [...]
  • <p>Dr. Catherine Dubourdieu is an internationally recognised expert in the field of functional oxides.</p>
    News
    12.04.2016
    Energy Materials: Dr. Catherine Dubourdieu sets up the institute “Functional Oxides for Energy-Efficient Information Technology” at the HZB
    The Helmholtz-Zentrum Berlin (HZB) is boosting its energy materials research and setting up a new institute. Through the Helmholtz Recruitment Initiative, the HZB has gained renowned researcher Catherine Dubourdieu as Institute Director. In the newly established institute “Functional Oxides for Energy-Efficient Information Technology”, she is researching into thin films of metal oxides that make especially promising candidates for information technologies of the future. Dubourdieu formerly worked at the institute “Nanotechnologies de Lyon” of the CNRS and has been at the HZB since 11 April 2016. [...]
  • <p>The three-dimensional structural network of the ultra-porous and flexible material called DUT-49 can store large amounts of methane. &copy; TU Dresden, Prof. AC1</p>
    Science Highlight
    08.04.2016
    Energy storage materials under pressure
    Surprising discovery at BESSY II: the adsorption capacity of MOFs does not rise automatically with increasing pressure [...]
  • <p>The team could observe for the first time with RIXS how the formation of hydrogen bonds does change C=O bonds in aceton molecules. </p>
    Science Highlight
    16.03.2016
    Measuring chemistry: local fingerprint of hydrogen bonding captured in experiments
    A team from Helmholtz-Zentrum Berlin has been able for the first time to measure how new bonds influence molecules: they have reconstructed the “energy landscape” of acetone molecules using measurement data from the Swiss Light Source (SLS) of the Paul Scherrer Institut, and thereby empirically established the formation of hydrogen bonds between acetone and chloroform molecules. The results have been published in Nature Scientific Reports and assist in understanding fundamental phenomena of chemistry. [...]
  • <p>In pure bismuth-selenide (left) no bandgap is found. With the addition of magnetic manganese (4%; 8%), a band gap (dashed line) arises, and electrical conductivity disappears. This effect shows even at room temperature and contrary to expectation, has nothing to do with the magnetism of the manganese,  which shows up only below 10 K (minus 263 Celsius). </p>
    Science Highlight
    19.02.2016
    Topological insulators: Magnetism is not causing loss of conductivity
    If topological insulators are doped with impurities that possess magnetic properties, they lose their conductivity. Yet contrary to what has been assumed thus far, it is not the magnetism that leads to this. This has been shown by recent experiments with BESSY II at HZB. The results are now published in Nature Communications. Understanding these effects is crucial for applications of topological insulators in information technology. [...]
  • <p>Sketch of the structure of both metal oxide layers. Interesting new properties can arise at the interface. </p>
    Science Highlight
    04.02.2016
    Metal Oxide Sandwiches: New option to manipulate properties of interfaces
    A Franco-German cooperation has investigated a sandwich system of transition metal oxides at BESSY II. The scientists discovered a new option to control properties of the interface between the two layers, for instance the amount of charge transferred from one layer to the other or the emergence of ferromagnetism.  Their insights might help to create new properties at the interface, not present in the primary materials, maybe even novel forms of High Tc superconductivity. [...]
  • <p>Vertical cut through a quadrupole magnet: Black: Field distribution at a fixed vertical distance to the midplane. Magenta: Electron trajectories for various initial coordinates. </p>
    Science Highlight
    20.01.2016
    A Fast Way of Electron Orbit Simulation in Complex Magnetic Fields
    The design  of  advanced synchrotron radiation sources requires precise  algorithms  for the  simulation of electron trajectories in  complex magnetic fields. However, multi-parameter studies can  be very time consuming. Now, a team of the HZB has developed a new algorithm which significantly reduces the computation time.  This approach is now published in the renowned journal “Physical Review Special Topics Accelerator & Beams”. [...]
  • News
    07.01.2016
    MacQueen is researching into optical energy converters for generating fuels: Funding through the Helmholtz Postdoc Programme
    Dr. Rowan W. MacQueen will come in spring 2016 to the Helmholtz-Zentrum Berlin (HZB) and will receive funding for his research project through the Helmholtz Postdoc Programme. He will be studying the optoelectronic properties at the boundaries of thin organic layers to oxides. These are relevant in developing optical energy converters for generating fuels. The “Helmholtz Postdoc Programme” will fund the Australian researcher with 100,000 Euro annually for a period of up to three years.  [...]
  • <p>MXcuBE Meeting from 1st - 2nd of December 2015 at Alba, Barcelona. The meetings make sure that the devenlopment of MXcuBE3 closly fits to the needs of the users.&nbsp;</p>
<p>Photo: <span>Jordi Juanhuix/ALBA</span></p>
    News
    09.12.2015
    Common platform for macromolecular crystallography at European synchrotrons
    Researchers use high-intensity X-ray light from synchrotron radiation sources to decipher the structures of biological molecules and thus the blueprints of life. A cooperation agreement has been effective since 2012 to establish common software standards at several European sources. Its aim: The eight synchrotrons involved want to create user-friendly, standardised conditions at the 30 experimental stations for macromolecular crystallography, which will greatly facilitate the work of research groups. In the new project “MXCuBE3”, the existing software platform is being adapted to include the latest developments in technology. [...]
  • <p>Sketch of the new set-up at EDDI. The high-speed camera (blue box) is on top of the sample holder. </p>
    News
    19.11.2015
    Filming microscopic and macroscopic changes within materials
    The EDDI beamline at BESSY II is now offering even more options. It has recently become possible to also obtain high-resolution three-dimensional images of microscopic structure with it, up to four such tomographies per second are possible. X-ray diffraction (energy-dispersive diffraction) can simultaneously be carried out to draw conclusions about the crystal structure of the material just as before. [...]
  • <p>Prof. Andreas Jankowiak beim Spatenstich f&uuml;r bERLinPro</p>
    Nachricht
    13.11.2015
    rbb-Inforadio: Andreas Jankowiak im Gespräch über bERLinPro
    Die Baustelle für bERLinPro fällt auf. Sie ist auch dem Wissenschaftsredakteur des rbb-Inforadio, Thomas Prinzler, nicht entgangen. Und so kam es zu einem kurzweiligen Gespräch, in dem Andreas Jankowiak die Herausforderungen des Projekts erläutert. Hohe Ströme, hohe Emitanzen - viel Physik. Aber auch die Anforderungen an die Gebäudeplanung kamen zur Sprache. Und die Synergie zu BESSY-VSR. Nachzuhören im Inforadio-Gespräch vom 8. November. [...]
  • <p>The picture illustrates a hypothetical highway with the second path winding around the first one. Experimenters at the beamlines could then either use the dense sequence of light pulses from the primary electron path or select individual light pulses from the secondary orbital track.  </p>
    News
    11.11.2015
    BESSY II electron highway gets second lane
    The particle accelerator team at Helmholtz-Zentrum Berlin (HZB) has demonstrated that BESSY II, the 3rd generation synchrotron radiation source in Berlin, can be operated with not just one, but two simultaneous electron paths. By precisely tuning the magnetic components, physicists can create an additional orbital path. Packets of electrons can travel along it and emit intense light pulses at the experiment stations. This could provide the user community with the option to select light pulses from either path as needed in their experiments. The newly developed orbital mode has already been stably implemented and initial tests at the experiment stations (beamlines) show promising results. HZB is the first to enter this new territory and at the same time has reached another milestone in its pioneering BESSY-VSR project. [...]
  • <p>Markus Kubin in front of his poster. </p>
    News
    20.10.2015
    Poster award to Markus Kubin
    At the International Conference on X-Ray Absorption Fine Structure Markus Kubin has been selected to receive one out of five poster awards. More than 300 posters have been presented at the poster session. [...]
  • <p>Typische Unterhaltung &uuml;ber BESSY II im Puppentrick</p>
    Nachricht
    01.10.2015
    Science-Video Wettbewerb: Der vom HZB eingereichte Beitrag aus dem Happy Undulator ist einer der Finalisten.
    Jetzt gilt‘s: bitte teilen, kommentieren und voten. Der von Wissenschaft im Dialog durchgeführte Video-Wettbewerb „Fast Forward Science 2015“ geht in die heiße Phase. 109 Videos sind bis zum Stichtag 31. Juli eingereicht worden, von denen eine Jury nun 17 Beiträge fürs Online-Voting ausgewählt hat, darunter der vom HZB eingereichte Beitrag „Bessy II: What can I do for you?“. Gefragt waren in dem Wettbewerb Wissenschaftsvideos, die zugleich unterhalten, wissenschaftlich fundiert und verständlich sind. [...]
  • <p>HZB scientists develop new methods to investigate the electronic structure of catalytic molecules. </p>
<p></p>
    News
    28.09.2015
    Catalysis research strengthened: Helmholtz-Zentrum Berlin participates in newly approved Einstein Center for Catalysis
    The Einstein Foundation will fund the new Einstein Center for Catalysis (EC2) beginning in 2016 in which Technical University Berlin (TU Berlin) and selected non-university institutions in Berlin will be participating. Prof. Emad Aziz, head of the HZB Institute for Methods of Materials Research at Helmholtz-Zentrum Berlin will be taking part in setting up the institution. His team will be contributing particular expertise in analytics of ultrafast processes in catalytic reactions. [...]
  • <p>Liquid flatjet system, showing the two nozzles from which two impinging single jets form a  liquid water sheet with a thickness of 1 - 2 &mu;m. </p>
    News
    25.09.2015
    How to Flow Ultrathin Water Layers - A Liquid Flatjet for X-Ray Spectroscopy
    A collaboration between scientists from the Max Born Institute for Nonlinear Optics and Short Pulse Spectroscopy (MBI), the Helmholtz-Zentrum Berlin (HZB) and the Max Planck Institute for Dynamics and Self-Organization (MPIDS) have now demonstrated the successful implementation of a liquid flatjet with a thickness in the μm range, allowing for XAS transmission measurements in the soft-x-ray regime. This paves the way for novel steady-state and time-resolved experiments. [...]
  • <p>Proteinkristalle an BESSY II studieren: Dank eines einmaligen Projektes k&ouml;nnen Studierende der FU Berlin regelm&auml;&szlig;ig am Snychrotron experimentieren. Das ist nur einer der sichtbaren Erfolge der Kooperation in der Berliner Strukturbiologie. Foto: Silvia Zerbe/HZB</p>
    Nachricht
    21.09.2015
    Gemeinsames Treffen der Strukturbiologen in Berlin: der 6. Joint-MX-Day am 23. September 2015 am HZB
    Die Hauptstadt hat sich in den letzten Jahren zu einem Hotspot der Strukturbiologie in Deutschland entwickelt. Entscheidend dazu beigetragen hat das hohe Maß an Kooperation zwischen außeruniversitären Forschungseinrichtungen und Universitäten. Aber auch Wissenschaft und Industrie arbeiten in der Strukturbiologie sehr eng zusammen. Am 23. September 2015 findet der 6. Joint-MX-Day statt, bei dem sich Forscher über neue Methoden, Ansätze und Erkenntnisse in der Strukturbiologie austauschen werden. [...]
  • <p>Spatenstich f&uuml;r die neue Beschleunigerhalle von bERLinPro. Zu sehen sind v.l.n.r: Jens Knobloch, Thomas Frederking, Anke Kaysser-Pyzalla, Andreas Jankowiak, Constanze Tibes (</p>
    Nachricht
    11.09.2015
    Rohbauarbeiten für Beschleunigerhalle am HZB beginnen: Spatenstich für eine Testanlage eines Linearbeschleuniger mit Energierückgewinnung (ERL)
    Unmittelbar vor dem Beginn der Rohbauarbeiten wurde am 10. September 2015 der Spatenstich für die neue Beschleunigerhalle von bERLinPro gefeiert, in der eine kompakte Testanlage für einen Linearbeschleuniger mit Energierückgewinnung aufgebaut wird. Zirka 200 geladene Gäste verfolgten diesen Meilenschritt auf dem Weg zur Realisierung eines technologisch einzigartigen Projekts. [...]
  • <p></p>
    Nachricht
    11.09.2015
    Milch, Wirkstoff-Taxis und andere kolloide Materialsysteme analysieren: SAS 2015 tagt in Berlin
    Vom 13. - 18. September treffen sich über 400 Expertinnen und Experten zur 16. Internationalen Konferenz zur Kleinwinkelstreuung (16. International Conference on Small Angle Scattering, SAS 2015) in Berlin. Mit Kleinwinkelstreuung lassen sich biologische und anorganische Materialsysteme auf Nanometerskala untersuchen und dynamische Prozesse beobachten. [...]
  • <p>The new filling pattern consists of a Hybrid (or Camshaft) bunch at 4 mA (Chopper) in the center of the 200 ns wide ion clearing gap followed by the so-called PPRE-bunch of variable transverse excitation at 3 mA and 84 ns later. Together with the usual multibunch filling and the 3 slicing bunches on top of the multibunch train, now 302 out of 400 possible buckets in the storage ring are filled and topped up. </p>
    News
    28.07.2015
    BESSY II launches New Filling Pattern in User Mode
    Since July 2015 BESSY II has been providing a new bunch filling pattern in Top-Up mode. It will open new opportunities especially for research teams dealing with time-resolved x-ray experiments. It is of significant importance for us and the community anticipating BESSY VSR. [...]
  • <p>The hedgehog-configuration of the spins and the Fermi-Level is shown. Illustration Thomas Splettst&ouml;&szlig;er/HZB</p>
    Science Highlight
    27.07.2015
    Spins in Graphene with a Hedgehog Texture
    HZB researchers demonstrate a fundamental property of the electron spin in graphene [...]
  • <p>Dr. Tristan Petit will broaden his research on nanocarbon materials with the Freigeist Fellowship. </p>
    News
    23.07.2015
    Freigeist Fellowship for Tristan Petit
    For his project on nanodiamond materials and nanocarbon, Dr. Tristan Petit has been awarded a Freigeist Fellowship from the VolkswagenStiftung. The grant covers a five-year period and will enable him to establish his own research team. The VolkswagenStiftung is funding with these prestigious fellowships outstanding postdocs planning original research that transcends the bounds of their own field.
    [...]
  • <p>Prof. Dr. Gerd Schneider becomes a full professur for x-ray microscopy at the Humboldt University Berlin and is the head of the HZB group "Microscopy". </p>
    News
    08.07.2015
    Gerd Schneider receives a professorship for "X-ray microscopy" at Humboldt-Universität zu Berlin
    On 29 April 2015, Gerd Schneider (HZB) accepted the call to a W2-S “X-ray microscopy” professorship at the Department of Physics of Humboldt-Universität zu Berlin. The professorship is associated with heading the workgroup “X-ray microscopy” at the Helmholtz-Zentrum Berlin für Materialien und Energie. With his group, the internationally recognised expert is developing new methods and applications for X-ray microscopy, which delivers crucial information for many scientific disciplines – from material and energy research to the life sciences.  [...]
  • <p>Mapping of the captured magnetisation domains (right, red-blue patterns) in a sample 20 nanometres thick that had been wound in two layers into a tube. The tube has a diameter of 5 microns and a height of 50 microns. </p>
    News
    07.07.2015
    New technique enables magnetic patterns to be mapped in 3D
    An international collaboration has succeeded in using synchrotron light to detect and record the complex 3D magnetisation in wound magnetic layers. This technique could be important in the development of devices that are highly sensitive to magnetic fields, such as in medical diagnostics for example. Their results are published now in Nature Communications. [...]
  • <p>Alexander F&ouml;hlisch is head of the HZB Institute Methods and Instrumentation for Synchrotron Radiation Research and holds a professorship at University Potsdam. </p>
    News
    03.07.2015
    From Excited Atoms to Functionality – ERC Advanced Grant Awarded to Alexander Föhlisch
    Under the EU Horizon 2020 Programme for Research and Innovation, Alexander Föhlisch has been awarded an ERC Advanced Grant. The physicists is holding a joint appointment at the Institute for Physics and Astronomy of the University of Potsdam and at the Helmholtz-Zentrum Berlin für Materialien und Energie. He is to receive a total of 2.5 million Euros over a five-year period to support his work on highly selective methods of detection using synchrotron light and X-ray lasers. [...]
  • <p>Sunlight activates the catalytic behavior of diamond materials, thus helping to convert carbon dioxide into fine chemicals and fuels. </p>
    News
    02.07.2015
    Green solutions with diamond materials:
    Horizon 2020 invests 3.9 million Euro in research project to convert CO2 into fuels using sunlight and diamond materials [...]
  • <p>Hexagonal single crystal of SrCo<sub>6</sub>O<sub>11</sub>, with a sample diameter of approximately 0,2 millimetres.</p>
    Science Highlight
    01.07.2015
    Emergence of a “devil’s staircase” in a spin-valve system
    A Japanese-German team observes at BESSY II how spins form unusual magnetic structures in a complex cobalt oxide single crystal. Such a material offers new perspectives for spintronic applications. [...]
  • News
    15.06.2015
    BESSY II - What can I do for you?
    To this very special question the current movie published by HZB gives an answer. We didn't produce a classic image film and show the xth series of images from a storage ring, but chose a different approach. The result is a funny puppet animation, in which our message is very clear but subtle: The Berlin Electron Storage Ring for Synchrotron Radiation [...]
  • <p>To obtain the 3D structure of the battery electrode on a micormeter scale, snchrotron tomography at BESSY II was used. </p>
    Science Highlight
    02.06.2015
    Realistic computer model of battery electrodes
    A research team has developed a new approach for more realistic computer models of battery electrodes. They combined images from synchrotron tomography that capture three-dimensional structure at micron resolution with those from an electron microscope that can even resolve nanometre-scale features over a small section. They were able to transfer these nano-features to areas beyond the section using a mathematical model. Properties and processes within battery electrodes can now be simulated highly realistically using this method. [...]
  • <p>At the MRS Spring Meeting in San Francisco, Kai Neldner was awarded for his poster contribution.</p>
    News
    29.05.2015
    Poster award for MatSEC PhD student at the MRS Spring Meeting
    The poster contribution of Kai Neldner (HZB-Department Crystallography) was awarded a poster price of the Symposium "Thin-Film Compound Semiconductors" at the MRS Spring Meeting in San Francisco. Kai Neldner, a PhD student in the HZB Graduate School "Materials for Solar Energy Conversion" (MatSEC) has presented results on structural properties of Kesterites (Cu2ZnSnS4 - CZTS) in relation to its stoichiometry deviations. [...]
  • <p>A thin magnetic FeRh film is grown onto a ferroelastic BTO substrate with two different crystal domains a and c. At 0 Volt ferromagnetic domains (red-blue pattern) are observed above BTO a-domains, whereas above c-domains the net magnetization is zero. At 50 Volt all BTO domains are converted into c-domains, which switches off ferromagnetic domains in FeRh. </p>
    Science Highlight
    18.05.2015
    New options for spintronic devices: Switching between 1 and 0 with low voltage
    Scientists from Paris and Helmholtz-Zentrum Berlin have been able to switch ferromagnetic domains on and off with low voltage in a structure made of two different ferroic materials. The switching works slightly above room temperature. Their results, which are published online in  Scientific Reports, might inspire future applications in low-power spintronics, for instance for fast and efficient data storage. [...]
  • <p>Sketch of  the &ldquo;MHz-pulse selector&rdquo; which moves frictionless in a vacuum at triple sound velocity perpendicular to the beam. </p>
    News
    04.05.2015
    Wheel with triple sound velocity for pulse selection at BESSY II
    In order to pick out only one pulse per turn out of the 400 possible x-ray flashes at BESSY II, a joint team of physicists and engineers from Forschungszentrum Jülich, MPI of Microstructure Physics and HZB have developed an extremely fast rotating “MHz-pulse selector”, which is now at the core of the Uppsala Berlin joint Lab to extract the hybrid bunch within the 200 nanosecond ion clearing gap of BESSY II. The device consists of a wheel made of a special Aluminum alloy which has tiny slits of 70 micrometer width at its outer rim. They move frictionless in a vacuum at triple sound velocity perpendicular to the beam. Users can now decide to operate their experiment in a single bunch mode even during normal multibunch operation of BESSY II. [...]
  • <p>Ultra-high vacuum system in the Energy Materials In-Situ Lab (EMIL) that will combine industry-relevant deposition tools with a suite of complementary advanced characterization methods. </p>
    News
    29.04.2015
    EU funding strengthens solar cell research at HZB
    Marcus Bär and his team are participating in two international projects being funded under the EU Horizon 2020 research programme. Both research projects are concerned with development and optimisation of high-efficiency thin-film solar cells based on chalcopyrites (“Sharc 25") and kesterites (“SWInG”). These two projects will together bring in about 900,000 EUR of additional research funding for solar cell research. [...]
  • <p>A view of what had been the practically empty segment at EMIL in the experimental hall; the beam tubes for EMIL are already being marked out on the brand-new flooring. Photo: Ingo M&uuml;ller/HZB<strong><br /></strong></p>
    News
    21.04.2015
    BESSY II is ready for user service
    BESSY II was shut down as scheduled from February 9th until the end of March for refurbishment and modernization. The accelerator is operational once again, and has been running since the beginning of April, beginning with beam scrubbing to increase the lifetime of the electrons in the storage ring and to improve operation. At the same time teams have been working on the calibration and commissioning of their instruments. BESSY II will be ready for user service once again on April 21 2015.
    [...]
  • <p>One of the new solid state transmitters: the power supplies are located in the left rack (black), the RF section is located behind the grey doors in the middle and in the right rack the control units can be seen.</p>
    News
    20.04.2015
    BESSY II changes over to solid state RF amplifiers
    BESSY II storage ring has four cavity resonators that are excited with high-power oscillating electromagnetic fields to compensate for the energy lost by the electron beam. Four Klystrons, as they are called (large high-power linear RF vacuum tubes), have provided extremely pure 500-MHz RF power for exciting these cavity resonators up to now. But there are no replacement klystrons available on the market. Wolfgang Anders and his team at the HZB’s Institute SRF – Science and Technology have therefore used the shutdown to replace two of the klystrons with modern solid-state RF amplifiers. The other klystrons are to be replaced until the end of the year. [...]
  • <p>An ultrashort laser pulse activates iron pentacarbonyl as a catalyst. Scientists could observe the subsequent ultrafast processes experimentally by mapping the outer orbitals with an x-ray free electron laser and interpret the obtained energy maps using quantum chemical calculations.<br />Illustration: SciStyle Thomas Splettst&ouml;&szlig;er</p>
    News
    02.04.2015
    Femto-snapshots of reaction kinetics
    Bonding behaviour of iron pentacarbonyl experimentally decoded. Application as a catalyst for storing solar energy. [...]
  • <p>Susan Schorr is Head of the Department of Crystallography.</p>
    News
    23.03.2015
    Susan Schorr named DGK Chair
    Prof. Dr. Susan Schorr was elected Chair at the German Crystallographic Society’s (DGK) recent annual conference. The conference took place from March 16-19, 2015, in Göttingen, Germany. Prior to her current appointment, Susan Schorr was head of the DGK’s National Committee. [...]
  • <p>3D-Modelle der Beschleunigerhalle f&uuml;r bERLinPro</p>
    Nachricht
    13.03.2015
    Baubeginn für Beschleunigerhalle bERLinPro am Helmholtz-Zentrum Berlin
    Am HZB- Standort Adlershof entsteht ein neuer Linearbeschleuniger mit Energierückgewinnung [...]
  • <p>Dichromium: both chromium atoms "share" the  12 valence electrons which leads to a multible bond. </p>
    Science Highlight
    23.02.2015
    Stretch and relax! – Losing one electron switches magnetism on in dichromium
    An international team of scientists from Berlin, Freiburg and Fukuoka has provided the first direct experimental insight into the secret quantum life of dichromium. Whereas in its normal state the 12 valence electrons form a strong multiple bond between the two chromium atoms, removing only one electron changes the situation dramatically: 10 electrons localize and align their spins, thus resulting in ferromagnetic behavior of the dichromium-kation. The bonding is done by one electron only, resulting in a much weaker bond. The scientists used the unique Nanocluster Trap experimental station at the BESSY II synchrotron radiation source at Helmholtz-Zentrum Berlin and published their results in the Journal Angewandte Chemie. [...]
  • <p>The insulating LFO-layer in its normal state is antiferromagnetically ordered (AFM) and has no ferromagnetic domains. Due to the proximity to the ferromagnetic LSMO, ferromagnetic domains develop (white arrows) at the interface, pointing into the opposite direction of the LSMO-layer.</p>
<p></p>
    Science Highlight
    17.02.2015
    Insight into inner magnetic layers
    Measurements at BESSY II have shown how spin filters forming within magnetic sandwiches influence tunnel magnetoresistance – results that can help in designing spintronic components. [...]
  • <p>This illustrates a moment captured for the first time in experiments at SLAC National Accelerator Laboratory. The CO-molecule and oxygen-atoms are attached to the surface of a ruthenium catalyst. When hit with an optical laser pulse, the reactants vibrate and bump into each other and the carbon atom forms a transitional bond with the lone oxygen center. The resulting CO<sub>2</sub> detaches and floats away. </p>
    Science Highlight
    12.02.2015
    Details of a crucial reaction: Physicists uncover oxidation process of carbon monoxide on a ruthenium surface
    An international team has observed the elusive intermediates that form when carbon monoxide is oxidized on a hot ruthenium metal surface. They used ultrafast X-ray and optical laser pulses at the SLAC National Accelerator Laboratory, Menlo Park, California. The reaction between carbon monoxide and adsorbed oxygen atoms was initiated by heating the ruthenium surface with optical laser pulses. Directly afterwards, changes in the electronic structure of oxygen atoms were probed via X-ray absorption spectroscopy as they formed bonds with the carbon atoms.The observed transition states are consistent with density functional theory and quantum oscillator models. [...]
  • <p>180 scientists listened to the lectures. <span>The aim of the dialogue is to identify future scientific fields as well as expectations, needs and requirements</span> for BESSY II.</p>
    News
    05.02.2015
    BESSY II – From Pico to Femto – time resolved studies at BESSY II
    180 scientists attended the workshop on time resolved studies
    [...]
  • <p>Nanodiamonds are tiny crystals only a few nanometres in size. Mohamed Sennour, MINES ParisTech.</p>
    Science Highlight
    28.01.2015
    Holes in valence bands of nanodiamonds discovered
    Researchers hope that their properties might be altered to permit nanodiamonds to be used as catalysts for generating hydrogen from sunlight [...]
  • <p>Hard disc from space: the Pallasite meteorite, studied by Harrison, contains information about the early solar system.<br /><em></em></p>
    Science Highlight
    22.01.2015
    Messages From Space
    Geologists from the University of Cambridge uncover hidden magnetic messages from the early solar system in meteorites measured at BESSY II. The team of scientists led by Dr. Richard Harrison has captured information stored inside tiny magnetic regions in meteorite samples using the PEEM-Beamline at BESSY II. [...]
  • News
    20.01.2015
    Dancing BESSY-VSR
    Paul Goslawski from Godehard Wüstefeld's team was the initiator of this project: Why not demonstrate in vivid form, what the future project BESSY-VSR is all about? With novel cavities to be introduced in synchrotron storage ring BESSY II, the new BESSY-VSR is supposed to compress some of the stored electron buckets. So it is possible to produce brilliant light pulses with variable length: short and long pulses in one ring. The user is able to choose what kind of pulse he needs for his experiment. But the team still has to solve some tricky problems. [...]
  • <p>A general view of the VEKMAG end-station. The vector magnet chamber (grey) is supported by a hexapod frame. Below the magnet  one can distinguish the detector chamber (green) and  in the forward direction the deposition chamber (dark grey) is displayed. The beam quality is monitored by a diagnostic chamber (yellow) positioned in front of the magnet chamber. </p>
    News
    15.01.2015
    “VEKMAG” at BESSY II creates 3D magnetic fields in samples
    Together with HZB, teams from the Universität Regensburg, from the Freie Universität Berlin and from  the  Ruhr Universität Bochum have jointly set up a unique measurement station at BESSY II: a vector electromagnet consisting of three mutually perpendicular Helmholtz coils which enables  setting the local magnetic field at the sample position  to any orientation desired. The first measurements of magnetic materials, spin systems, and nanostructured magnetic samples are scheduled for early 2015. [...]
  • <p><span class="imageCaption">Researchers at PSI spotted a curious black-and-white magnetic substructure on a five-by-five micrometre square &ndash; and were reminded of the stylised Batman logo. The black areas reveal where the magnetisation is pointing downwards, i.e. into the picture; the white ones where it is pointing upwards. <br /></span></p>
    Science Highlight
    12.01.2015
    Batman lights the way to compact data storage
    Researchers at the Paul Scherrer Institute (PSI) have succeeded in switching tiny, magnetic structures using laser light and tracking the change over time. In the process, a nanometre-sized area bizarrely reminiscent of the Batman logo appeared. The research results could render data storage on hard drives faster, more compact and more efficient. [...]
  • <p>HZB-scientists Karsten Holldack, Alexander Schnegg and Joscha Nehrkorn at the BESSY II Beamline.</p>
    Science Highlight
    06.01.2015
    New light shed on electron spin flips
    Researchers from Berlin Joint EPR Lab at Helmholtz-Zentrum Berlin (HZB) and University of Washington (UW) derived a new set of equations that allows for calculating electron paramagnetic resonance (EPR) transition probabilities with arbitrary alignment and polarization of the exciting electromagnetic radiation. The validity of the equations could be demonstrated with a newly designed THz-EPR experiment at HZB’s storage ring BESSY II. This progress is relevant for a broad community of EPR users and is published in Physical Review Letters on January 6. 2015 (DOI 10.1103/PhysRevLett.114.010801). [...]
  • <p>Crystal structures of HgBa<sub>2</sub>CuO<sub>4</sub>+ and YBa<sub>2</sub>Cu<sub>3</sub>O<sub>6</sub>+</p>
    Science Highlight
    22.12.2014
    Universality of charge order in cuprate superconductors
    Charge order has been established in another class of cuprate superconductors, highlighting the importance of the phenomenon as a general property of these high-Tc materials. [...]
  • <p>The Advanced Photon Source facility illuminated by lightning. (</p>
    News
    10.12.2014
    D-Lecture: A Light and a Beam
    Dr. Alexander Zholents from Argonne National Laboratory will present on 18th December 2014 his thoughts on "A Light and a Beam: a Theme with Variations". The presentation will be given at the lecture hall of the Wilhem-Conrad-Röntgen-Campus of HZB at 2 pm. After the presentation, we invite you to “Glühwein” and informal discussion. [...]
  • <p>Markus Ries (left) and Alex Manuel Frano Pereira (right) were awarded by Prof. Mathias Richter of "HZB Circle of Friends" the Ernst-Eckhard Koch-Prize for their outstanding PhD-projects. </p>
    News
    08.12.2014
    Lively exchange at User Meeting
    From December 3 to 5, more than 500 users of HZB's BER II and BESSY II large-scale equipment met up to discuss the current state of technology and exchange their views on pressing scientific issues. [...]
  • <p>Exploded view drawing of the electrochemical flow cell for soft x-ray absorption and emission spectroscopy. The membrane (yellow) is coated with a metal, serving as working electrode (WE) and that also serves as a support for the solid sample. Counter (CE) and reference electrode (RE) are placed in the liquid chamber. Tubes are attached to allow fast and easy liquid exchange and to prevent radiation damage. <br /><br /></p>
    News
    05.11.2014
    New in situ cell for investigating solid- and liquid-state samples and their interfaces under electrical voltage
    A team headed by Dr. Kathrin Aziz-Lange has developed a new in-situ cell for X-ray spectroscopy of fluid samples and their interfaces to solid bodies. What is special is the cell contains electrodes that can expose the sample to voltage during or between measurements. The resulting changes triggered in the electrical structure of the sample can be observed with the help of X-ray absorption and emission spectroscopy in real time. [...]
  • <p>Optical image of a filled root.<br /></p>
    News
    30.10.2014
    Root canal treatment procedures investigated at BESSY II
    Two scientists have examined several dozen dental roots at BESSY II, both before and after treatment and found that the mechanical procedures during treatment are rather not contributing to micro fractures. [...]
  • Science Highlight
    26.09.2014
    German Society for Materials Science awards publication with HZB scientist as co-author

    At its annual conference on September 22, 2014, the German Society for Materials Science (DGM), presented the Werner Köster Award for best publication. The work, whose authors include HZB scientist Dr. Michael Tovar and which has been published in the International Journal of Materials Research, examines the catalytic effect of vanadium pentoxide in propene synthesis from propane using spectroscopic, microscopic, and radiographic methods. [...]

  • Science Highlight
    26.09.2014
    “Multi-spectra glasses” for scanning electron microscopy
    Reflection zone plates produced by HZB enable lighter elements in material samples to be precisely detected using scanning electron microscopy (SEM) by providing high resolution in the range of 50-1120 eV. [...]
  • <p>Im ehemaligen Plenarsaal der Bundesregierung in Bonn finden die Vort&auml;ge statt.</p>
    Nachricht
    23.09.2014
    Deutsche Tagung für Forschung mit Synchrotronstrahlung, Neutronen und Ionenstrahlen an Großgeräten in Bonn
    Das HZB ist mit eigenem Stand, Vortrag und Postern präsent auf der Deutschen Tagung für Forschung mit Synchrotronstrahlung, Neutronen und Ionenstrahlen an Großgeräten (SNI). Die dreitägige Veranstaltung findet vom 21. bis 23.09. im ehemaligen Plenarsaal der Bundesregierung im heutigen World Conference Centers in Bonn statt. [...]
  • <p>Outstanding researchers took part in the &ldquo;New Trends in Topological Insulators 2014&rdquo; - workshop.</p>
    News
    01.09.2014
    Leading scientists on topological insulators met in Berlin
    From July 7-10, 150 researchers met in Berlin to discuss recent findings in the field of topological insulators. [...]
  • Science Highlight
    22.08.2014
    Proteins: New class of materials discovered
    German-Chinese research team gleans seminal insights into protein crystalline frameworks at HZB's BESSY II [...]
  • <p>Cryogenic TEM micrograph of gold nanoparticles (Au-NP) in DES-solvent. Sputtering duration 300 s. Red circles show the different domains of self-assembled Au-NPs. The inset shows an enlarged image of one particular domain of self-assembled Au-NPs.<br /></p>
    Science Highlight
    04.08.2014
    Self-assembly of gold nanoparticles into small clusters
    Researchers at HZB in co-operation with Humboldt-Universität zu Berlin (HU, Berlin) have made an astonishing observation: they were investigating the formation of gold nanoparticles in a solvent and observed that the nanoparticles had not distributed themselves uniformly, but instead were self-assembled into small clusters. [...]
  • <p><span>Im Kontrollraum von BESSY II lie&szlig; sich der DFG-Pr&auml;sident Prof. Dr. Peter Strohschneider erl&auml;utern, wie die Synchrotronquelle betrieben wird. Foto: HZB</span></p>
    Nachricht
    29.07.2014
    DFG-Präsident besucht BESSY II
    Am 18. Juli besuchte Prof. Dr. Peter Strohschneider den Berliner Elektronenspeicherrng BESSY II am HZB und informierte sich über die Bedeutung der Synchrotronstrahlung für die Material- und Energieforschung. Außerdem konnte er das PVcomB besichtigen. [...]
  • <p>Der parlamentarische Staatssekret&auml;r des BMBF Stefan M&uuml;ller im Kontrollraum von BESSY II. Foto: HZB</p>
    Nachricht
    28.07.2014
    BMBF-Staatsekretär Stefan Müller bei BESSY II zu Gast
    Seit Dezember 2013 ist Stefan Müller Parlamentarischer Staatssekretär bei der Bundesministerin für Bildung und Forschung Prof. Dr. Johanna Wanka. Nun informierte sich Stefan Müller über die Forschung am BESSY II. Der Besuch fand am Mittwoch, den 16. Juli 2014 statt. [...]
  • <p>Ammonium tungstate/PSS film surface:  (a) SEM picture before pyrolysis; (b &amp; c) SEM picture after pyrolysis. </p>
    Science Highlight
    01.07.2014
    Collecting light with artificial moth eyes
    Scientists at EMPA in Zürich and University of Basel have developed a photoelectrochemical cell, recreating a moth’s eye to drastically increase its light collecting efficiency. The cell is made of cheap raw materials – iron and tungsten oxide. Analyses at BESSY II have revealed which chemical processes are useful to facilitate the absorption of light. [...]
  • <p>These scanning electron micrographs show how accurately the three Fresnel zone plates were positioned above one another. 3D X-ray optics of this kind allow the resolutions and optical intensities to be considerably improved.</p>
    Science Highlight
    18.06.2014
    Sharper imaging using X-rays
    HZB team develops three-dimensional volume diffraction optics for X-rays [...]
  • <p>The graduate students Jens V&ouml;ker and Christoph Kunert received a IPAC grant and presented their work on a student poster sesson.</p>
    News
    16.06.2014
    1200 accelerator physicists from around the world meet in Dresden
    The world’s largest particle accelerator conference is being held in Germany for the first time, with around 1200 scientists expected to visit the Saxon capital Dresden from 15 to 20 June. The 5th international conference IPAC is the place for experts to share the advancements they have made in developing particle accelerators and their components. [...]
  • <p>Some contemporary Synchroton Radiation methods need pulsed x-rays with a specific time structure. HZB-users at BESSY II can use them now on demand. </p>
<p></p>
    News
    30.05.2014
    X-ray pulses on demand from Electron Storage Rings
    HZB physicists recently devised a new method to pick single x-ray pulses out of the pulse trains usually emitted from synchrotron radiation facilities. The technique is very useful to support studies of electronic properties of quantum materials and superconductors and paves the way for future synchrotron facilities with variable pulse lengths. [...]
  • <p><sub>2</sub> (orange) on top of MoS<sub>2</sub> (blue). The SPEEM-microscopy reveals coupling between both layers and charge transfer. </p>
    News
    09.05.2014
    Energy efficient LEDs and lasers with Chalcogenide monolayers
    As reported by nanotechweb.org, monolayers of certain chalcogenides might be used to make energy-efficient nano-optoelectronics devices, such as LEDs, lasers, solar cells, and high-electron-mobility transistors. Scientists of the University of California at Berkeley, the Lawrence Berkeley National Lab and the Helmholtz-Zentrum Berlin für Materialien und Energie in Berlin investigated the electronic and optoelectronic properties of a so called heterojunction of WSe2/MoS2. [...]
  • <p>Intensity distribution of XUV light in the slit plane. </p>
    News
    29.04.2014
    New tool for Joint Lab to investigate the chemistry of nature
    The Aziz’ team at the Joint Laboratory between Freie Universität Berlin and HZB has built a laser-based tabletop setup which generates ultrashort XUV light pulses and achieves their monochromatization by implementing special reflection zone plates, developed and produced by the team of Alexei Erko. [...]
  • <p>Crystal structure of human MTH1 in complex with a key inhibitor.<br />Source: Stockholm University, Prof. Pal Stenmark.</p>
    Science Highlight
    08.04.2014
    A new concept for the treatment of cancer
    A team of researchers from five Swedish universities has identified a new way to treat cancer. They present their concept in the journal „Nature“. It is based on inhibiting a specific enzyme called MTH1. Cancer cells, unlike normal cells, need MTH1 to survive. Without this enzyme, oxidized nucleotides are incorporated into DNA, resulting in lethal DNA double-strand breaks in the cancer cells. The research group at Stockholm University has determined the structure of MTH1 based on diffraction measurements at HZB´s MX-beamline at BESSY II. These detailed structural studies are important for the development of efficient inhibitors targeting MTH1. [...]
  • <p>The picture shows the characteristic spin texture (arrows) in a topological insulator (bottom) and how it is either probed by circularly polarized light (top) or manipulated by it (middle). </p>
    Science Highlight
    27.03.2014
    Controlling electron spins by light
    Researchers of HZB manipulate the electron spin at the surface of topological insulators systematically by light [...]
  • <p>The picture shows the characteristic spin texture (arrows) in a topological insulator and how it is manipulated by circularly polarized light.<em></em></p>
    News
    25.02.2014
    How to use light to manipulate the spin in topological insulators
    Researchers at HZB investigated the topological insulator bismuth selenide (Bi2Se3) by spin-resolved photoelectron spectroscopy at BESSY II. They found an astonishing difference depending on whether it is illuminated by circularly polarized light in the vacuum ultraviolet (50 electron volts, eV) and in the ultraviolet spectral range (6 eV). This result could help explaining how spin currents can be generated in topological insulators. [...]
  • <p>A cluster tool for the research on new classes of materials and device structures for photovoltaic and photocatalysis applications. (Source: Altatech)</p>
    News
    21.02.2014
    A new cluster tool for EMIL
    The Helmholtz-Zentrum Berlin für Materialien und Energie (HZB) and Altatech, a subsidiary of Soitec, have launched a collaborative partnership to research and develop materials for the next generation of high-efficiency solar cells, including new classes of materials and innovative device structures for photovoltaic and photocatalysis applications. [...]
  • <p>The outline of the lizard serves as a test object, as well as the conventional test pattern, a section of a so called Siemens star. The lizard&rsquo;s tail and the converging rays of the Siemens star can be used to measure how well narrow lines will be reproduced in an image. With a diameter of six thousandths of a millimetre, the entire test object is about the size of a red blood cell. The smallest resolved structure has a width of 46 nanometres. </p>
    Science Highlight
    07.01.2014
    New holographic process uses image-stabilised X-ray camera
    A team headed by Stefan Eisebitt has developed a new X-ray holography method that will enable snap-shots of dynamic processes at highest spatial resolution. The efficiency of the new method is based on a X-ray focussing optics being firmly fixed to the object to be imaged. While this approach initially provides a blurry image, this can be focussed in the computer based on the hologram information. At the same time, the rigid connection between the object and the focussing optics elegantly solves the problem of vibration induced jitter that plays an enormous role at the nanometre scale. [...]
  • <p>Stripe order of charge carriers in Bi<sub>2</sub>Sr<sub>2</sub>CaCu<sub>2</sub>O<sub>8+x</sub> [2]. The figure shows the structure with a period of approximately one nanometer (front) and the related diffraction pattern (back) obtained by a so-called Fourier transformation (Yazdani Lab, Princeton University).</p>
    Science Highlight
    19.12.2013
    Charge Order competes with superconductivity
    Today in Science Express: Charge carriers in cuprate high-Tc superconductors form nanostripes that suppress superconductivity, as shown by guest researchers from Princeton and Vancouver using synchrotron radiation at BESSY II [...]
  • In einem iterativen Prozess werden die ARPES-Messungen mit einem Algortihmus zu Wellenfunktionen verrechnet und erneut interpretiert.
    Nachricht
    17.12.2013
    Die Vermessung von Molekülen: Physiker der Uni Graz spüren Elektronenzustände auf
    Seit der Formulierung der Quantenphysik vor gut hundert Jahren träumen Wissenschaftlerinnen und Wissenschaftler davon, die quantenmechanischen Orbitale von Elektronen in Atomen, Molekülen und Festkörpern zu messen. Denn diese Orbitale bestimmen die chemischen und physikalischen Eigenschaften des Materials. Zwei Arbeitsgruppen um Ass.-Prof. Dr. Peter Puschnig und Ao.Univ.-Prof. Dr. Michael Ramsey am Institut für Physik an der Karl-Franzens-Universität Graz ist es nun gelungen, Elektronenorbitale von Kohlenwasserstoff-Molekülen auf einem Silbersubstrat sichtbar zu machen, indem sie Messungen an BESSY II  mit ab inititio-Berechnungen  kombiniert haben. Auch KollegInnen des deutschen „Forschungszentrums Jülich“ sind an der Arbeit beteiligt, die nun in der aktuellen Ausgabe der „Proceedings of the National Academy of Sciences (PNAS)“ publiziert worden ist. [...]
  • News
    27.11.2013
    HZB part of new metal oxide/water systems CRC

    A team of HZB researchers is part of the new collaborative research center, "Molecular insights into metal oxide/water systems" funded by the German Research Association. As part of this CRC, Dr. Bernd Winter of Prof. Dr. Emad Aziz's junior research group will be studying metal ions and metal oxide complexes in aqueous solution at BESSY II. [...]

  • High-Tech-Bau neben High-Tech-Bau: Das „Energy Materials In-Situ Laboratory Berlin“ (EMIL) entsteht als Anbau neben der Synchrotronlichtquelle BESSY II des HZB. Foto: HZB
    Nachricht
    26.11.2013
    Anbau an BESSY II im Rekordtempo: EMIL hat jetzt ein Dach über dem Kopf
    Das Forschungsgebäude für das neue Labor EMIL an BESSY II nimmt Form an: Am Mittwoch, 4. Dezember 2013, ab 13 Uhr feiert das „Energy Materials In-Situ Laboratory Berlin“ Richtfest. Die Zeremonie findet auf dem Wilhelm Conrad Röntgen Campus des Helmholtz-Zentrum Berlin, Albert-Einsteinstraße 15, 12489 Berlin, statt. Vertreter der Medien sind herzlich eingeladen. [...]
  • A key feature of the active site of the trypanosomal thiolase is the HDCF-loop (HIS-ASP-CYS-PHE), visualised in light blue.
    News
    07.11.2013
    Blocking the active site of thiolase
    Scientists at the University of Oulu, Finland, and at the HZB break new ground for drug discovery research in the fight against sleeping sickness [...]
  • The new cavities during their installation.
    News
    25.10.2013
    New cavities successfully installed
    At the heart of BESSY II are four cavities, hollow resonators, providing the energy that electrons in the storage ring re-absorb after they have released it as light packets. The old cavities were still from the 1970s and were employed at DESY in Hamburg, then at BESSY I, and finally at BESSY II beginning in 1998. “However, the limit of their operating life has been reached”, says Dr. Wolfgang Anders from the HZB Institute of SRF – Science and Technology. Anders, an expert in the field, was responsible for replacing two of the four old cavities with new units during the summer shutdown. [...]
  • the 7-Tesla Multipole Wiggler: after one year working on it, the wiggler came back from Novosibirsk as planned but had to be removed from the storage ring again. The reason for highly elevated operating temperatures are investigated.
    News
    21.10.2013
    Resumption of full scientific operation at BESSY II delayed
    While the lengthy summer shutdown with its comprehensive updating and maintenance work has been completed as planned, there have been some unforeseeable disruptions that will delay the resumption of regular Top-Up operations at present. The scientific operating time for users which was unavailable in October will be made up at the beginning of 2014. [...]
  • <p>Dr. Manuela Klaus and Prof. Dr. Christoph Genzel won the Technolgy-Transfer-Prize for developing a new cutting tool. </p>
    News
    18.10.2013
    Technology Transfer Prize for development of an optimised cutting tool
    Dr. Manuela Klaus and Prof. Dr. Christoph Genzel have won the HZB Technology Transfer Prize awarded 17 October 2013. In collaboration with the Walter Company, they developed a new method for analysing and establishing the relationship between the structure and the properties of cutting tools having complicated coatings. They used synchrotron radiation for this purpose created in the electron storage ring of BESSY II. As a result of the insight gained, a production series of cutting tools having outstanding wear properties far superior to competing products was able to be patented and successfully introduced into the market. [...]
  • Zwei der vier alten Kavitäten wurden durch neue Kavitäten ausgetauscht. Foto: C.Jung/HZB
    Nachricht
    18.10.2013
    Wiederaufnahme des Messbetriebs nach Sommershutdown:
    Seit Anfang der Woche läuft der Messbetrieb am Berliner Elektronenspeicherring BESSY II wieder. Damit ist der planmäßige neunwöchige Sommer-Shutdown 2013 beendet. Er stand in diesem Jahr unter besonderer Aufmerksamkeit, denn an BESSY II wird das große EMIL-Labor für die Solar- und Katalyseforschung angedockt. [...]
  • Nachricht
    11.10.2013
    Festsymposium zur 1000. Proteinstruktur an BESSY II
    Im Juli 2013 wurde die 1000. Proteinstruktur veröffentlicht, die auf bei BESSY II gemessenen Daten beruht. Aus diesem Anlass lädt das HZB am Mittwoch, den 16.10.2013, zu einem Festsymposium ein. [...]
  • Scientists from all over the world discussed the challanges of messuring the dynamic processes in different materials with X-rays.
    News
    08.10.2013
    At an international conference in Berlin, researchers were discussing options for using X-rays to take time-resolved measurements
    The Helmholtz Virtual Institute “Dynamic pathways in multidimensional landscapes” is striving for a holistic view of material properties [...]
  • Structure of the sugar molecule bound by the enzyme transketolase immediately prior to its being split
    News
    12.09.2013
    Göttingen scientists use BESSY II to decode basic mechanism underlying biochemical reactions
    Enzymes are life’s molecular catalysts and figure prominently in cellular metabolism. It has been speculated that in the course of a biochemical reaction enzymes physically bend their substrates to split them. Now for the first time ever, scientists at the Göttingen Center for Molecular Biosciences (GZMB) have successfully used BESSY II's MX beamline to unequivocally confirm this hypothesis. The results from this study have been published in the renowned scientific journal Nature Chemistry. [...]
  • A scanning electron micrograph of a w=500&#8201;nm wide and 30&#8201;nm thick permalloy ring with radius r=2&#8201;&#956;m overlayed with a scanning transmission X-ray microscopy (STXM) image showing the in-plane magnetic contrast.
    News
    11.09.2013
    Domain walls as new information storage
    Domain wall motion imaging: at high speeds, material defects no longer play a role [...]
  • This sketch demonstrates the principle of measurement which enables to address  atom-specific and state-dependent emission of photons. With the help of first principles theory the spectral features can be associated with molecular orbitals.
    Science Highlight
    21.08.2013
    Better insight into molecular interactions
    How exactly atoms and molecules in biochemical solutions or at solid-liquid interfaces do interact, is a question of great importance. Answers will provide insights at processes in catalysts, smart functional materials and even physiological processes in the body, which are essential for health. Until now, scientists could have a look at these interactions by methods of spectroscopy, but it was hard to distinguish the many different interactions, which take place simultaneously. [...]
  • <p>Researchers have documented how inelastic scattering can intelligently intensified so that a shift of frequency is observed.<br />&copy;HZB/E. Strickert</p>
    Science Highlight
    21.08.2013
    Researchers from HZB open a door for solid state physics
    Laser processes observed with X-rays on a solid [...]
  • <p>Polymer chain incorporation during formation of ideal PE-nanocrystals by catalytic insertion polymerization with a water-soluble Ni(II) catalyst. The amorphous layers covering both platelets act as the wheels of a pulley just changing the direction of the chains. A moderate raise of the temperature induces sufficient mobility that allows the chains to move within the crystal.</p>
    Science Highlight
    14.08.2013
    Ideal nanocrystal produced from bulk plastics
    Polyethylene is an inexpensive commodity plastic found in many household objects. Now, a consortium of researchers from Constance, Bayreuth, and Berlin has successfully used this plastic to synthesize the ideal polymer nanocrystal. The prerequisite was a new type of catalyst produced by Constance University researchers as well as a combination of unique analytic tools like those found at the Helmholtz Zentrum Berlin (HZB). The crystalline nanostructure, which gives the polymer its new properties, could prove of interest to production of new kinds of coatings. The scientists’ findings are being published in the Journal of the American Chemical Society’s current issue (DOI: 10.1021/ja4052334). [...]
  • Nachricht
    09.08.2013
    HZB-Forscher stellen Zukunftsprojekte für BESSY II vor
    „Synchrotron Radiation News“ zu Neuen Trends in der Beschleunigertechnologie enthält Beiträge zu BESSYVSR und BERLinPro [...]
  • <p>The inhibitor Ex-527 attaches to the enzyme Sirt-3 (shown here in light grey) and to acetylated ADP ribose; this substance is a product which results from Sirt-3 mediated deacetylation. This blocks the sirtuin&rsquo;s active center to prevent further deacetylation. This way, the sirtuin has effectively set a permanent trap for itself the first time around.</p>
    News
    06.08.2013
    1000th protein structure decoded at BESSY II
    In July of this year, the 1000th protein structure based on measurements obtained at BESSY II was published. The molecule in question belongs to a class of proteins called sirtuins, which are involved in aging, stress, and metabolic processes within the human organism. Bayreuth University’s Prof. Clemens Steegborn and his team uncovered a clever mechanism used by active substances to inhibit sirtuin activity. The results have been published in the renowned scientific journal Proceedings of the National Academy of Sciences, USA, and could potentially point the way to new cancer therapies. [...]
  • Burial of the time capsule was part of the groundbreaking ceremony. Seen here are Klaus Lips, Anke Kaysser-Pyzalla, Birgit Schröder-Smeibidl, Markus Hammes, Bernd Rech, Axel Knop-Gericke (CAT project leader of the MPG's Fritz Haber Institute) and Thomas Frederking. Photo: Andreas Kubatzki/HZB
    News
    06.08.2013
    Groundbreaking for EMIL
    On Monday, August 5, 2013, a festive groundbreaking ceremony was the official  signal for the start of construction of the new BESSY II research lab EMIL. The new cutting-edge solar energy and catalysis research preparation and analysis lab "Energy Materials In-Situ Laboratory Berlin" will be a direct BESSY II add-on. The joint project by the HZB and the Max Planck Society provides a one-of-a-kind infrastructure for the interdisciplinary and industry compatible development of new materials and technologies to facilitate the energy transition. This includes new material systems for solar modules as well as storage solutions for which new kinds of catalysts are warranted. [...]
  • Nachricht
    02.08.2013
    Die Bauarbeiten beginnen: BESSY II erhält Anbau für neuen Laborkomplex
    Mit einem feierlichen Spatenstich beginnen am Montag, dem 5. August 2013 um 16:00 die Bauarbeiten für das neue Forschungslabor EMIL an BESSY II: Das „Energy Materials In-Situ Laboratory Berlin“, kurz EMIL, wird als hochmodernes  Präparations- und Analyselabor für die Solarenergie- und Katalyseforschung aufgebaut. Das Gemeinschaftsprojekt vom HZB und der Max-Planck-Gesellschaft soll eine einzigartige Infrastruktur bieten, um interdisziplinär und industriekompatibel neue Materialien und Technologien zu entwickeln, die die Energiewende ermöglichen. Dazu zählen neue Materialsysteme für Solarmodule und Speicherlösungen, für die neuartige Katalysatoren entwickelt werden müssen. [...]
  •  Optical laser flash (red) destroys the electronic order (blue) in magnetite and, within one trillionth of a second, switches the state of the material from insulating to conducting.
    Science Highlight
    29.07.2013
    Picosecond accurate slow-motion confirms oxide materials exhibit considerably faster switching properties than do semi-conductors
    As part of an international team of researchers, scientists at the Helmholtz Center Berlin (HZB) have observed the switching mechanism from a non-conducting to a conducting state in iron oxide (specifically, magnetite) with previously unrealized precision. This switching mechanism - which, in oxides, proceeds in two consecutive steps and which is thousands of times faster than it is in current transistors - is described in the current epub-ahead-of-print issue of the scientific journal Nature Materials (DOI: 10.1038/NMAT3718).   [...]
  • <p>Fundamental processes: Charge donation/backdonation in the [Fe(CO)5] model catalyst in solution was studiedby resonant inelastic X-ray scattering. This method can be used to selectively probe the electronic structure at each atom in the iron-carbonyl bond. </p>
    Science Highlight
    25.07.2013
    Watching catalysts at work – at the atomic scale
    Innovative combination of methods at HZB leads to fundamental insights in catalyst research [...]
  • <p>The measurement (left) is impressively well reproduced in a simulation utilizing the HZB-code WAVE. </p>
    News
    16.07.2013
    First Observation of Undulator Photon Beams Carrying Orbital Angular Momentum
    For the first time researchers of HZB observed 99eV photons carrying Orbital Angular Momentum (OAM). The photons were detected in the 2nd harmonic off-axis radiation of a helical undulator. The measurements confirm a theoretical prediction from five years ago. In the visible regime these singular photon beams or OAM-photons can be generated from laser light utilizing phase modulating techniques. The proof-of-principle experiment at BESSY II demonstrates the availability of OAM-photons up to the X-ray regime in low emittance machines, with helical undulators being used for the generation of circularly polarized radiation similar to today’s 3rd generation light sources. [...]
  • <p>HZB manufactured sawtooth grating. Photo: HZB</p>
    News
    15.07.2013
    Grating manufacture at Helmholtz-Zentrum Berlin scores breakthrough - Sawtooth gratings for photon sources are once again available
    The Technology Center for Optical Precision Gratings at the Helmholtz-Zentrum Berlin (HZB) has scored a breakthrough in the manufacture of these optical building elements. Gratings are used in photon sources to diffract light and filter out those wavelengths that are needed for a given experiment. Now, after two and a half years of work, for the first time ever, the developers have created high precision sawtooth gratings that meet the demands of scientific experimentation. These sawtooth (or blazed) gratings recently underwent testing at BESSY II, the HZB’s own electron storage ring. The result: The gratings’ behavior conformed to the researchers’ theoretical predictions. The HZB Technology Center is the World’s sole manufacturer of high efficiency precision gratings for use in photon sources. The project has received EU funding in the form of an EFRE grant. [...]
  • Scanning electron microscopy image of the sample corresponding to a top view on the nanopillar structure.
    News
    03.07.2013
    Shedding light on magnetoelectric coupling
    Effect opens up new possibilities for digital data storage [...]
  • <p>Polycrystalline film growth during coevaporation in real time using in situ X-ray diffraction and fluorescence analysis.</p>
    Science Highlight
    27.06.2013
    Watching solar cells grow
    For the first time, a team of researchers at the HZB led by Dr. Roland Mainz and Dr. Christian Kaufmann has managed to observe growth of high-efficiency chalcopyrite thin film solar cells in real time and to study the formation and degradation of defects that compromise efficiency. To this end, the scientists set up a novel measuring chamber at the Berlin electron storage ring BESSY II, which allows them to combine several different kinds of measuring techniques. Their results show during which process stages the growth can be accelerated and when additional time is required to reduce defects. Their work has now been published online in Advanced Energy Materials. [...]
  • Dr. Tristan Petit joins the Aziz-Team. Foto: T.Petit
    News
    31.05.2013
    Humboldt Fellow new addition to Aziz team
    Starting June 1st, Dr. Tristan Petit will be joining Prof. Dr. Emad Flear Aziz’ team for a two-year postdoc. His Humboldt Foundation Fellowship for Postdoctoral Researchers gave Petit the option to choose his German scientific host. Ultimately, he decided on the Joint Ultrafast Dynamics Lab in Solutions and at Interfaces (JULiq) that was set up by Aziz. Says Petit: “I really wanted to be on Aziz’ team as they have a lot of collective expertise with spectroscopy in water.” [...]
  • Structure of Brr2-protein belongs to a family of enzymes that are called “RNA helicases”.
    News
    31.05.2013
    Discovery of how a key enzyme of the spliceosome exerts its controlling function
    To sustain life, processes in biological cells have to be strictly controlled both in time and in space. By using the MX-Beamline of synchrotron radiation source BESSY II research workers at the Max Planck Institute for Biophysical Chemistry in Göttingen and the Free University of Berlin have elucidated a previously unknown mechanism that regulates one of the essential processes accompanying gene expression in higher organisms. In humans, errors in this control mechanism can lead to blindness. This discovery has been published in the renowned scientific journal Science (23th may 2013). [...]
  • <p>Julia Vogt aus der Gruppe SRF Wissenschaft (G-ISRF) erhielt f&uuml;r ihr Poster &uuml;ber die systematische Verdr&auml;ngung von magnetischen Flusslinien aus supraleitendem Niob auf der 4. IPAC den Posterpreis. Ebenfalls ausgezeichnet wurde Yichao Mo (UMD, College Park, Maryland). Die beiden hatten sich unter mehr als 110 Bewerberinnen und Bewerbern durchgesetzt. Foto: IPAC</p>
    Nachricht
    21.05.2013
    Posterpreis auf Internationaler Teilchenbeschleunigerkonferenz an Julia Vogt
    Vom 12. bis 17. Mai tagte in Shanghai, China, die 4. Internationale Konferenz für Teilchenbeschleuniger (International Particle Accelerator Conference, IPAC13). Rund 1.200 Teilnehmerinnen und Teilnehmern aus aller Welt hatten sich versammelt, um sich über Fortschritte bei Lichtquellen und Teilchenbeschleunigern auszutauschen. Besonderes Gewicht legten die Organisatoren auf die Postersession, auf der Nachwuchswissenschaftler ihre Arbeiten vorstellen konnten. Dabei erhielt die HZB-Doktorandin Julia Vogt aus dem Institut SRF Wissenschaft und Technologie (G-ISRF) einen Preis für das beste Poster. Insgesamt hatte die Jury über 110 eingereichte Poster begutachtet und zwei davon ausgezeichnet. [...]
  • <p>Magnet islands: Scanning electron micrograph from a regularly arranged square lattice of magnetic islands. The researchers created the islands using electron beam lithography &copy; modifiziert nach / modified from Physical Review Letters</p>
    News
    16.05.2013
    RUB physicists let magnetic dipoles interact on the nanoscale for the first time
    “Of great technical interest for future hard disk drives”

    Physicists at the Ruhr-Universität Bochum (RUB) have found out how tiny islands of magnetic material align themselves when sorted on a regular lattice - by measurements at BESSY II. Contrary to expectations, the north and south poles of the magnetic islands did not arrange themselves in a zigzag pattern, but in chains. “The understanding of the driving interactions is of great technological interest for future hard disk drives, which are composed of small magnetic islands”, says Prof. Dr. Hartmut Zabel of the Chair of Experimental Physics / Solid State Physics at the RUB. Together with Dr. Akin Ünal, Dr. Sergio Valencia and Dr. Florian Kronast from the Helmholtz-Zentrum in Berlin, Bochum’s researchers report in the journal “Physical Review Letters”.

     

    Read the full text in the press release of RUB:

      [...]

  • <p>A German-US-collaboration explores photosynthesis with the help of light sources as SLAC or BESSY II by taking snapshots of catalytic reactions. Illustration: Greg Stewart, SLAC National Accelerator Laboratory</p>
    News
    15.05.2013
    Snap shots of one of life's central processes
    Human Frontier Science Program provides funding of 900,000 US Dollars in support of international collaboration on photosynthesis. [...]
  • An ultrafast spin current triggers the emission of Terahertz-Radiation.
    News
    01.04.2013
    Ultrafast Spin Manipulation at THz frequencies
    The demands for ever increasing speed of information storage and data processing have triggered an intense search for finding the ultimately fast ways to manipulate spins in a magnetic medium. In this context, the use of femtosecond light pulses – the fastest man-made event - with photon energies ranging from X-rays (as used for instance at the HZB femto-slicing facility) to THz spectral range proved to be an indispensable tool in ultrafast spin and magnetization dynamics studies. [...]
  • News
    15.03.2013
    Real time observation of chemical reaction at catalyst
    Scientists at the U.S. Department of Energy's (DOE) SLAC National Accelerator Laboratory used LCLS, together with computerized simulations, to reveal surprising details of a short-lived early state in a chemical reaction occurring at the surface of a catalyst sample. The study offers important clues about how catalysts work and launches a new era in probing surface chemistry as it happens.

    [...]
  • Nachricht
    09.03.2013
    Kathrin Lange erhält Wilhelm-Ostwald-Nachwuchspreis 2012
    Dr. Kathrin Maria Lange erhält für ihre am HZB angefertigte Dissertation den Wilhelm-Ostwald-Nachwuchspreis 2012. Der mit 2500,- Euro dotierte Preis wird von der Wilhelm-Ostwald-Gesellschaft zu Großbothen e.V., der Deutschen Bunsen-Gesellschaft für Physikalische Chemie und der Gesellschaft Deutscher Chemiker verliehen. Die Preisverleihung findet am 9. März in Großbothen bei Leipzig statt, dem Arbeitsort des Nobelpreisträgers für Chemie 1909, Wilhelm Ostwald. [...]
  • <p>Uwe M&uuml;ller und Thomas Frederking (v.li.) durchtrennen das Band. Der neue Detektor ist nun einsatzbereit.</p>
    Nachricht
    27.02.2013
    Proteinstrukturen besser erforschen
    Feierlich eingeweiht: Der neue Pilatus-Detektor für die Kristallographie ist nun einsatzbereit [...]
  • <p>The titanium dioxide nanoparticles crystallize in a polymer network at room temperature.</p>
    News
    21.02.2013
    Titanium dioxide nanoreactor
    Tiny particles of titanium dioxide are found as key ingredients in wall paints, sunscreens, and toothpaste; they act as reflectors of light or as abrasives. However with decreasing particle size and a corresponding change in their surface-to-volume ratio, their properties change so that crystalline titanium dioxide nanoparticles acquire catalytic ability: Activated by the UV component in sunlight, they break down toxins or catalyze other relevant reactions. [...]
  • Upon contact between the oxygen atoms protruding from the backbone and the metal, the molecules' internal structure changed in such a way that they lost their semiconducting properties and instead adopted the metallic properties of the surface.</br>
    News
    18.02.2013
    Organic Electronics - How to make contact between carbon compounds and metals
    Organic electronics has already hit the market in smart-phone displays and holds great promise for future applications like flexible electroluminescent foils (a potential replacement for conventional light bulbs) or solar cells that convert sunlight to electricity. A reoccurring problem in this technology is to establish good electrical contact between the active organic layer and metal electrodes. Organic molecules are frequently used also for this purpose. Until now, however, it was practically impossible to accurately predict which molecules performed well on the job. They basically had to be identified by trial-and-error. Now, an international team of scientists around Dr. Georg Heimel and Prof. Norbert Koch from the HZB and the Humboldt University Berlin has unraveled the mystery of what these molecules have in common. Their discovery enables more focused improvements to contact layers between metal electrodes and active materials in organic electronic devices. [...]
  • News
    28.01.2013
    Demagnetization by rapid spin transport

    The fact that an ultrashort laser pulse is capable of demagnetizing a ferromagnetic layer in a jiffy has been well-known since approximately 1996. What we don't yet understand, however, is how exactly this demagnetization works. Now, physicist Dr. Andrea Eschenlohr and her colleagues at the Helmholtz Centre Berlin and Uppsala University in Sweden have shown that it turns out not to be the light pulse itself that prompts demagnetization. [...]

  • Der Pilatus-Detektor (rechts) ist mit dem ASAXS-Instrument<br />des HZB am FCM-Strahlrohr der PTB installiert.
    Nachricht
    21.12.2012
    Mit neuem Detektor kleinsten Biomarkern auf der Spur
    PTB installiert vakuumkompatiblen ortsempfindlichen Röntgendetektor am Elektronenspeicherring BESSY II. Forscher können damit die Größe kontrastarmer Nanoobjekte bestimmen.

    [...]

  • In a graphene sheet on nickel, every other <br />carbon atom is strongly bonded to the nickel atom <br />which it sits on top of while its neighboring <br />carbon atoms do not face nickel atoms.<br /> This atomic arrangement breaks the original<br /> lattice symmetry.
    News
    21.12.2012
    Graphene on Nickel: Electrons behave like light
    Dr. Andrei Varykhalov and his colleagues in the group of Prof. Dr. Oliver Rader investigated at BESSY II the electronic properties of nickel coated with graphene and achieved an astonishing result. They could show that the conduction electrons of the graphene behave rather as light than as particles. Physicists had originally expected such behavior only for freestanding graphene layers which show a perfect honeycomb structure and not for graphene on nickel which disturbs the perfect hexagonal symmetry. Their results are supported by calculations of two theoretical groups using novel concepts. Their report was published in the open access journal, Phys. Rev. X, the new top journal of the Physical Review. [...]
  • On the photo are shown from left to right <br />Manfred Weiss (HZB-MX), Bartosz Sekula (Lodz),<br />
Uwe Mueller (HZB-MX) and Anna Bujacz,<br /> Bartosz' Ph.D. supervisor.
    News
    18.12.2012
    MX-Posterprize to Bartosz Sekula, Lodz
    The prize for the best poster in the field of macromolecular crystallography was awarded to
    Bartosz Sekula from the University of Lodz (Poland). The poster committee unanimously selected the poster titled "Complexes of equine serum albumin with ligands" as this year's best poster in MX. [...]
  • News
    17.12.2012
    Three-day exchange at User Meeting
    From December 12 to 14, more than 400 users of HZB's BER II and BESSY II large-scale equipment met up to discuss the current state of technology and exchange their views on pressing scientific issues. Two of the highlights were Science Day on December 13 and Neutron Day on December 14, both held at the Bunsensaal in Berlin-Adlershof. Both days, the focus was on instrumentation. Participants were able to learn about new technologies and advances in large-scale equipment instrumentation. Science Day featured the many scientific achievements that have been made thanks to BESSY II and BER II. [...]
  • Nachricht
    05.12.2012
    Forscher zeigen mit Berechnungen, dass kompakte Laser-Plasma-Beschleuniger möglich sind

    Ultrakurze Pulse aus kohärentem Röntgenlicht sind ein fantastisches Mittel, um Einsichten in atomare oder molekulare Reaktionen zu gewinnen. In Freien-Elektronen-Lasern können solche Pulse im Femtosekundenbereich (10 -15 sek) erzeugt werden. Doch bislang sind dafür enorme Beschleuniger nötig, die nur an wenigen Großforschungseinrichtungen der Welt zur Verfügung stehen.  An einer kompakteren Alternative arbeitet Dr. Atoosa Meseck vom HZB-Institut für Beschleunigerphysik mit Kollegen aus dem HZB und anderen Forschungseinrichtungen. Nun haben sie einen Bauplan für eine kompakte Quelle für kohärente kurzwellige Strahlung entworfen und berechnet. Dieses Ergebnis veröffentlichten sie in der Fachzeitschrift "Physical Review". [...]

  • Solar hydrogen evolution by graphitic carbon nitride/p-type chalcopyrite<br />thin film photo-cathode: It is shown that graphitic carbon nitride films<br />coated on p-type CuGaSe2 thin films can be successfully applied as new<br />photoelectrochemical composite photo-cathode for light induced<br />hydrogen evolution.
    News
    24.09.2012
    From sunlight to hydrogen
    Scientists at the Helmholtz Zentrum Berlin successfully test new hybrid material for use in photoelectrochemical hydrogen production [...]
  • <p>Prof. Anke Kaysser-Pyzalla und Prof. Peter Andr&eacute; Alt haben<br />das Band durchgeschnitten, das Labor ist offen.<br />Foto: HZB</p>
    Nachricht
    17.08.2012
    Neues Labor von Helmholtz-Zentrum Berlin und Freier Universität Berlin eröffnet
    Flüssigkeiten und Materialien in Lösung mit modernsten Methoden durchdringen [...]
  • Nachricht
    05.06.2012
    HZB an Helmholtz-Plattform für Detektortechnologien und Detektorsysteme beteiligt

    Die Helmholtz-Gemeinschaft initiiert eine Plattform, um Detektortechnologien und Detektorsysteme weiter zu entwickeln. Ziel der Plattform –  die als Portfoliothema gefördert wird – ist es, Technologien zum Aufbau neuartiger Detektoren für Photonen, Neutronen sowie geladene Teilchen weiter zu entwickeln, die Datenübertragung und -auswertung zu optimieren und exemplarische Detektorprototypen zu entwerfen und zu bauen. Ein weiteres wichtiges Ziel ist die Vernetzung der Detektorlabore. Kleine Zentren können so an kostspieligen technologischen Entwicklungen teilhaben. Das HZB ist an der Plattform beteiligt und entwickelt Systeme für die Detektion von Neutronen, Photonen sowie intelligente, programmierbare Hardware für die Datenerfassung. [...]

  • © Museum of Cultural History, University of Oslo /<br />Eirik Irgens Johnsen<br />The wood fibres of the richly decorated ceremonial wagon<br />are disintegrated because of the preservation method.
    News
    05.06.2012
    Monumental effort to save the threatened Viking treasures of Oseberg
    Norwegian conservators are conducting tests at HZB to halt the degradation of one of the most important cultural assets from the Viking Age [...]
  • <p>Red light from a laser pointer is converted into higher-energy yellow<br />light as it passes through the liquid photochemical upconverter.<br />Source: University of Sydney, Australia</p>
    News
    29.02.2012
    Photochemical Turbo Power for Solar Cells
    How organic molecules make yellow light from red. [...]
  • Phoenex-Apparatus<br />
    News
    10.02.2012
    Under cover of graphene
    Researchers at Helmholtz-Zentrum Berlin have developed a method to conserve electronic surface states using graphene. [...]
  • <p>This picture schematically shows the studied titanium dioxide rods<br />illuminated by X-rays of various photon energies through a capillary<br />condenser. A high-resolution lens &ndash; not shown here &ndash; then forms<br />an image of the objects.<br />Source: HZB</p>
    News
    07.12.2011
    Breakthrough in X-Ray Nanospectroscopy
    HZB researchers achieve X-ray spectroscopy at nanoscale spatial resolution [...]
  • Synchrotron Radiation Source BESSY II
    News
    11.11.2011
    Tiny, Tailored Magnets - CeNIDE Researchers Publish in “Nature Communications”
    Nanomagnets are used in many places nowadays, from medicine to data storage. Sometimes they have to be strong and and sometimes they have to be weak. Researchers from the Center for Nanointegration (CeNIDE) at University of Duisburg-Essen (UDE) have found out just how to produce these tiny magnets with highly specific properties, and have published their results. [...]
  • News
    01.11.2011
    Shedding Light on Luminescence - Scientists at HZB reveal the structure of a designer protein
    Fluorescent proteins are important investigative tools in the biosciences: Coupled to other proteins, they help us to study the processes of life inside cells and organisms at the molecular level. Fluorescent proteins are made to light up at specific target sites or to become dark again where necessary. In other words, they are switched on and off like light bulbs. Now, for the first time, at Helmholtz-Zentrum Berlin (HZB) scientists have studied the structural characteristics involved in fluorescence on one single protein crystal when switched on and when switched off. Their results are published in Nature Biotechnology (doi:10.1038/nbt.1952). [...]
  • <p>auf dem Weg zum Labor; vorne li: Shoichiro Toyoda</p>
    Nachricht
    24.10.2011
    BESSY II besitzt magnetische Anziehungskraft
    Ehrenvorsitzender des weltgrößten Automobilherstellers besucht das HZB [...]
  • News
    19.10.2011
    The large-scale project EMIL (Energy Materials In-situ Laboratory Berlin) will create new opportunities for researching energy materials by the beginning of 2015
    Helmholtz Zentrum Berlin and the Max Planck Society are going to build a new, dedicated X-ray beamline together at the synchrotron source BESSY II, which will be used for analysing materials for renewable energy generation. The new large-scale project has been dubbed EMIL (a common name in Berlin, but which also stands for Energy Materials In-situ Laboratory Berlin) and includes, among other things, the major project already announced under the name of SISSY (Solar Energy Materials In-Situ Spectroscopy at the Synchrotron). The assessment of EMIL in September 2011, by an external committee of experts engaged by the scientific advisory board, went very well and the experts endorsed the EMIL project "enthusiastically". The supervisory board of HZB will give the go-ahead for construction of EMIL in two months. [...]
  • <p>Schematische Darstellung eines Wassermolek&uuml;ls,<br />welches von Acetonitrilmolek&uuml;len umgeben ist.</p>
    Nachricht
    27.09.2011
    Ein Sensor für Wasserstoffbrückenbindungen
    Wissenschafter des Helmholtz-Zentrum Berlin (HZB) haben einen Sensor für die Wasserstoffbrückenbindungen in flüssigem Wasser gefunden. In Röntgenspektren fanden sie einen Peak, der empfindlich auf das Brechen von Wasserstoffbrücken reagiert. Sie publizieren die Ergebnisse in der online-Ausgabe der Zeitschrift Angewandte Chemie (DOI: 10.1002/anie.201104161). [...]
  • Dr. Justine Schlappa
    News
    19.09.2011
    Oxygen: Bond breaking in a jumpy way
    HZB is involved in researching quantum beating, which expands our knowledge on the creation and destruction of chemical bonds. [...]
  • Krankhafte Strukturveränderungen in einem Dinosaurierknochen<br />sichtbar gemacht mit Synchrotron-Holotomografie<br />
    Nachricht
    13.09.2011
    Erster Nachweis für Viren in der Erdgeschichte: Paget-Krankheit bei Dinosaurieren entdeckt
    Den Paläontologen Florian Witzmann und Oliver Hampe vom Museum für Naturkunde Berlin gelang in Kooperation mit Wissenschaftlern der Charité und des Helmholtz-Zentrums Berlin für Materialien und Energie eine aufsehenerregende Entdeckung: An einem 150 Millionen Jahre alten Wirbel des Dysalotosaurus lettowvorbecki konnten sie den bisher ältesten Nachweis von Viren erbringen. Der Pflanzen fressende Dinosaurier aus Tendaguru/Tansania hatte zu Lebzeiten eine Paget genannte Knochenkrankheit, die durch masernähnliche Viren ausgelöst wird und bislang nur von Menschen und Primaten bekannt ist. Die Wissenschaftler berichten darüber in der jüngsten Ausgabe der Zeitschrift Current Biology. [...]
  • Prof. Dr. Emad Flear Aziz Bekhit
    Nachricht
    08.09.2011
    Der Traum von der Zusammenarbeit wird wahr - Berliner Wissenschaftler mit ERC Starting Grant ausgezeichnet
    Der Physiker Prof. Dr. Emad Flear Aziz, Wissenschaftler am Helmholtz-Zentrum Berlin (HZB) und an der Freien Universität Berlin, wird mit einem „ERC Starting Grant“ des Europäischen Forschungsrates ausgezeichnet. Dieser umfasst eine Förderung von 1,5 Millionen Euro. Der Nachwuchswissenschaftler kann damit in den kommenden fünf Jahren die Untersuchung von funktionalen Materialien voranbringen. Aziz‘ Forschungsthema lautet „Structure and Dynamics of Porphyrin-Based Materials in Solution vs. Interfaces”. Ihm ist es gelungen, den ersten ERC Starting Grant für das HZB einzuwerben. Über den ERC-Grant hinaus fördert die Helmholtz-Gemeinschaft Aziz´ Forschung mit weiteren 250.000 Euro. [...]
  • Nachricht
    15.08.2011
    2. Joint Berlin MX Day

    Die in Berlin auf dem Gebiet der Strukturbiologie forschenden Wissenschaftler betreiben seit einem Jahr gemeinsam das Joint Berlin MX Laboratory. Am 17. August findet der zweite gemeinsame Workshop statt. Gastgeber ist diesmal das Max-Delbrück-Centrum in Berlin-Buch. Wer noch teilnehmen möchte, kann sich gern noch anmelden - per email an Prof. Dr. Udo Heinemann: heinemann@mdc-berlin.de [...]

  • Nachricht
    28.06.2011
    Erfolgsgeschichte mit Fortsetzung - 10 Jahre Deutsch-Russisches Labor

    Eine Erfolgsgeschichte feiert Geburtstag: Das Russisch-Deutsche Labor an der Speicherringanlage BESSY II des Helmholtz-Zentrums Berlin in Adlershof wird zehn Jahre alt. Die Einrichtung, in der Wissenschaftler zum fundamentalen Verständnis der Struktur von Materie forschen, ist eine in dieser Form einzigartige Kooperation zwischen deutschen und russischen Wissenschaftlern. [...]

  • <p>Prof. Dr. Emad Flear Aziz<br /></p>
    Nachricht
    25.05.2011
    Flüssigkeiten im Synchrotron: Mit weicher Röntgenstrahlung der Funktion von Materialien auf der Spur
    Der Karl-Scheel-Preis 2011 der Physikalischen Gesellschaft zu Berlin geht an Prof. Dr. Emad Flear Azizvon der Freien Universität Berlin und dem Helmholtz-Zentrum Berlin für Materialien und Energie [...]
  • Das bisher einzige bekannte Skelett der Messel-Eidechse<br />Cryptolacerta. Das Fossil ist nur wenige Zentimeter groß<br />und bis auf den Schwanz nahezu vollständig erhalten.<br />Vorder- und Hinterbeine besaßen nur sehr kleine Füße,<br />ein erster Schritt in der Reduktion der Gliedmaßen.<br />© MfN
    Nachricht
    19.05.2011
    Fossile Eidechse aus der Grube Messel widerlegt Theorie über Ursprung der Schlangen
    Helmholtz-Zentrum Berlin an der Untersuchung des fossilen „Missing Link“ beteiligt [...]
  • Nachricht
    06.05.2011
    Forschern gelingt es, Partikel beim Sintern dreidimensional sichtbar zu machen
    Sintern ist ein Verfahren, um aus metallischen oder keramischen Pulvern Werkstoffe oder komplexe Bauteile herzustellen. Bei Temperaturen unterhalb des Schmelzpunktes entsteht aus einem Ausgangspulver ein Festkörper höherer Dichte. Mithilfe der hochauflösenden Synchrotron-Computer-Tomografie konnten HZB-Wissenschaftlern in einem gemeinsamen Forschungsprojekt den Prozess weiter aufklären und erstmals die Bewegung der Partikel in 3D darstellen. [...]
  • Vordere Reihe, von links nach rechts: Leona Berndt, Christiane<br />Kowsky, Daniela Dalm<br />Hintere Reihe, von links nach rechts: Gesa Volkers, Xenia<br />Bogdanovic, Britta Girbardt, Christiane Großmann, Dr. Christiane<br />Fenske, Dr. Gottfried Palm, Winfried Hinrichs<br />Foto: Uni Greifswald
    Nachricht
    02.05.2011
    Kampf gegen Antibiotika-Resistenzen - Wissenschaftler enttarnen Resistenzprotein
    Wissenschaftler des Helmholtz-Zentrum Berlin haben mit der Synchrotronstrahlungsquelle BESSY II an der Strukturaufklärung eines Proteins mitgewirkt, das für Antibiotikaresistenzen verantwortlich ist: Mit ihrer Unterstützung ist es Forschern der Universität Greifswald gelungen, die Struktur des Proteins Monooxygenase TetX zu entschlüsseln, das Bakterien eine Resistenz gegen Tetracyclin-Antibiotika vermittelt. Damit wurde erstmals ein Schlüssel zum Verständnis eines Resistenzmechanismus gefunden, noch bevor die klinische Anwendung eines Antibiotikums wirkungslos wird. Ein entsprechender Artikel wurde jetzt in der wissenschaftlichen Fachzeitschrift FEBS Letters veröffentlicht. [...]
  • Abbildung der transversalen Ladungsverteilung auf einem<br />Leuchtschirm, der für die Messung in den Strahlengang des<br />Elektronenstrahls gefahren ist.
    Nachricht
    28.04.2011
    Wichtiger Schritt Richtung BERLinPro: Erster Elektronenstrahl aus SRF Quellinjektor
    Am 21. April 2011 hat das HZB mit einer supraleitenden Elektronenquelle (SRF Gun) die ersten Photoelektronen erzeugt und beschleunigt. Dies ist ein Meilenstein für das Projekt BERLinPro, und es ist zugleich weltweit das erste Mal, dass mit einem supraleitenden Hochfrequenz-Photoinjektor aus einer supraleitenden Photokathode ein Elektronenstrahl erzeugt worden ist.
    [...]
  • <p>Ein Datenpunkt &auml;ndert die Polarisierung:<br /> Der Probenausschnitt zeigt die Magnetisierung,<br /> w&auml;hrend sie sich von oben nach unten umkehrt.</p>
    Nachricht
    14.04.2011
    Nutzerexperiment bei BESSY-II: Ein schneller Schalter für Magnetnadeln
    Wissenschaftler aus aller Welt kommen ans HZB, um die beiden Großgeräte – die Synchrotronstrahlungsquelle in Adlershof und den Forschungsreaktor in Wannsee – für ihre Untersuchungen zu nutzen. Doch bevor es mit den Messungen losgehen kann, müssen die Forscher Anträge einreichen, die ein international besetztes Gremium begutachtet. Dieser Aufwand wird betrieben, um für die aussichtsreichsten wissenschaftlichen Ideen Messzeit zur Verfügung zu stellen. Nicht selten führen sie zu herausragenden Publikationen. Ein aktuelles Beispiel ist ein Nutzerexperiment, das am Speicherring BESSY II von dem Team von Dr. Hermann Stoll vom Max-Planck-Institut für Intelligente Systeme (ehemals Max-Planck-Institut für Metallforschung) zusammen mit Kollegen aus Gent und Regensburg durchgeführt wurde. [...]
  • Top, centre: While the magnetization of gadolinium (red arrow)<br />has not yet changed, the magnetization of iron (blue arrow)<br />has already reversed.<br />Large <br />reversal, while the X-ray pulse (blue) measures it.<br />
    News
    12.04.2011
    Ultra-Fast Magnetic Reversal Observed
    A newly discovered magnetic phenomenon could accelerate data storage by several orders of magnitude. [...]
  • Das ist die 500ste Proteinstruktur, die am BESSY II ent- <br />schlüsselt wurde. Das Molekül, das im aktiven Zentrum des <br /> Proteins zu sehen ist, ist die Vorstufe eines Hemmstoffs für <br /> Pim-1. Die Struktur klärten Wissenschaftler von <br /> Bayer Healthcare Pharmaceuticals in Berlin auf.
    Nachricht
    24.03.2011
    Von 1 auf 500… - 500ste Protein-Struktur an BESSY II entschlüsselt
    Haare, Haut, Blutkreislauf und Nervensystem – alles wird von winzigen biologischen Bausteinen gesteuert. Wer nach diesen kleinsten Bausteinen des Lebens forscht, landet automatisch bei ihnen: den Proteinen. Um diese Grundbausteine des Lebens und die Vorgänge, die sie bewirken, besser zu verstehen, archivieren Wissenschaftler in aller Welt ihre Erkenntnisse über Proteine in einer gemeinsamen Datenbank. Die HZB-Forschungsgruppe Makromolekulare Kristallografie (MX) stellt Nutzern am BESSY II die Technik zur Verfügung, mit der sie Protein-Strukturen entschlüsseln können. Vor kurzem wurde die bereits 500ste Struktur an diesen MX-Strahlrohren des HZB von Wissenschaftlern der Bayer Healthcare Pharmaceuticals Berlin entschlüsselt. [...]
  • <p>Scientists sorts the X-Ray pulse (blue) from Terahertz pulse (red)<br />by using a mirror. The X-Ray flash passes through a 10 millimetre<br />small &rdquo;hole&rdquo; in the center of the mirror. </p>
    News
    02.02.2011
    Terahertz flashes enable accurate X-ray measurements
    Joint press release of European XFEL GmbH, Helmholtz-Zentrum Berlin and Deutsches Elektronen-Synchrotron DESY, a Research Centre of the Helmholtz Association [...]
  • Sägezahnstruktur eines Blaze-Gitters
    Nachricht
    05.01.2011
    Exzellenz bei der Lichtbeugung
    HZB richtet Technologiezentrum für hocheffiziente optische Präzisionsgitter ein [...]
  • Slice through the nucleus of a mouse adenocarcinoma cell<br />showing the nucleolus (NU) and the membrane channels running<br />across the nucleus (NMC); taken by X-ray nanotomography.<br />Photo: HZB/Schneider
    News
    18.11.2010
    New microscope reveals ultrastructure of cells
    HZB researchers can take images of small cellular components in their natural environment – while the cell remains intact [...]
  • Nachricht
    12.10.2010
    Grünes Licht für BERLinPro

    Helmholtz-Zentrum Berlin entwickelt neuartige Beschleunigertechnologie [...]

  • Close-up of the liquid-jet.
    News
    10.09.2010
    LiXEdrom: Innovative measuring chamber for X-ray study of liquid jets
    Until now, the only way to study liquids by soft X-ray emission spectroscopy (XES) has been through a membrane window. Now, researchers of Helmholtz-Zentrum Berlin have carried out an XES study of a free micro-liquid jet on the synchrotron. [...]
  • Nachricht
    02.09.2010
    Ein schneller Blick auf komplexe Ordnung
    Grundlagenforschung zu magnetischen Ordnungsphänomenen in Festkörpern ist eine der Hauptforschungsrichtungen am HZB, bei denen die Kombination von Neutronen- und Röntgenstreuung eine herausragende Rolle spielt. Materialien mit komplexen magnetischen Strukturen wie z.B. antiferromagnetische Halbleiter lassen sich mit solchen Methoden untersuchen. Hier ordnen sich unterhalb einer bestimmten Temperatur die magnetischen Momente in atomaren Schichten mit alternierender Magnetisierungsrichtung an. Dies führt zu magnetischen Beugungsreflexen, die auch mit Neutronen beobachtet werden können. Röntgenstreuung als komplementäre Methode kann zusätzlich eine hohe Ortsauflösung und, in Kombination mit ultrakurzen Röntgenpulsen, eine sehr hohe Zeitauflösung erreichen. Dies ermöglicht nun die Untersuchung der bisher nicht zugänglichen magnetischen Dynamik solcher komplexer Strukturen. [...]
  • X-ray photon taking electron from the Fe(III) active center to the water mixed orbital in time scale faster than 7 femtoseconds (the corehole life time of Fe(III))
    News
    09.08.2010
    Help from the Dark Side
    Using “dark channel” fluorescence, scientists can explain how biochemical substances carry out their function [...]
  • <p>Christian Stamm at BESSY II-beamline for femtoslicing</p>
    News
    27.05.2010
    First the orbit, then the spin
    Novel storage materials of the future will be made out of magnetic films. Researchers at HZB are the first to find out just how fast magnetic particles can be controlled. [...]
  • Nachricht
    15.04.2010
    Katalase und Methämoglobin: so ähnlich und doch verschieden
    Wichtige physiologische Prozesse beim Fettabbau und Sauerstofftransport aufgeklärt [...]
  • Nachricht
    23.02.2010
    Teilchenbeschleuniger und Neutronenquellen im Dienst der Materialforschung

    Mehr als 700 Wissenschaftler treffen sich in Berlin zur SNI 2010 [...]

  • Prof. A. Föhlisch und Dr. E. Suljoti bei der Arbeit an der<br>Undulatorbeamline UE52-PGM bei BESSY II.
    Nachricht
    30.12.2009
    Wie Kreisel auf atomarer Ebene miteinander wechselwirken
    Die Wechselwirkungen zwischen Elektronen und dem Atomgerüst in einem Festkörper sind die Grundlage von Materialeigenschaften, die eine zunehmend wichtige technologische Rolle spielen. Dazu gehört zum Beispiel das schnelle Schalten magnetischer Medien, wie es etwa für die Speicherung von Daten auf Computerfestplatten erforderlich ist.  Diesen Vorgang untersuchen und optimieren Wissenschaftler derzeit im Labor anhand der ultraschnellen Demagnetisierung von ferromagnetischen Schichtsystemen. Um solche Materialsysteme weiter optimieren zu können, müssen Wissenschaftler die Wechselwirkung zwischen Elektronen und Atomgitter detailliert verstehen. Forscher die am Helmholtz-Zentrum Berlin (HZB) und der Universität Hamburg tätig sind, haben nun einen wichtigen Teilprozess der Wechselwirkung der Elektronen mit den so genannten Phononen, den Quasiteilchen der atomaren Gitterschwingung, aufgeklärt. Dabei konnten sie zeigen, wie und vor allem mit welcher Effizienz Elektronen eine ihrer fundamentalsten Eigenschaften, den so genannten Drehimpuls, mit den Phononen austauschen können. Ihre Ergebnisse hat das Team um Professor Alexander Föhlisch, Leiter des HZB-Instituts für „Methoden und Instrumentierung der Synchrotronstrahlung“, und Professor Wilfried Wurth von der Universität Hamburg jetzt in der Fachzeitschrift „Physical Review Letters“ publiziert. Den Nachweis und die Quantifizierung dieses Effekts führten das Team an einem klassischen Modellsystem durch, dessen physikalische Eigenschaften sehr genau bekannt sind: Silizium. An der Synchrotronstrahlungsquelle BESSY II des HZB bestrahlten sie Siliziumkristalle mit Röntgenstrahlung und maßen dann hochpräzise die Energie der an der Probe gestreuten Lichtteilchen, der Photonen. Die Analyse der Ergebnisse dieser auch als resonante inelastische Röntgenstreuung bezeichneten Methode erlaubte es nun, die Wahrscheinlichkeit eines sogenannten Drehimpulstransfers zwischen Phonon und Elektron genau zu bestimmen. Der Effekt ist klein - in Silizium etwa 50 Mal kleiner als die bekannte dominierende klassische Elektronen-Phononen Wechselwirkung, bei der kein Drehimpuls übertragen werden kann –, weil die Phononen nur in seltenen ausgewählten Situationen zu einem Drehimpulsübertrag in der Lage sind. Die zur genauen Vermessung notwendige Sensitivität erreichten die Wissenschaftler durch die Kopplung der „Hamburg Inelastic X-ray scattering station“ (HIXSS) mit der hochbrillanten Synchrotronstrahlung des Speicherrings BESSY II. „Das Resultat unserer Messung ist ein wichtiger Baustein auf dem Weg zu einem besseren Verständnis der komplizierten Kopplungen zwischen Atomgitter und den drei wichtigen Eigenschaften der Elektronen – dem Spin, dem Bahndrehimpuls und der Ladung“, sagt Alexander Föhlisch: „Technologisch bedeutsame Materialeigenschaften wie schnelle Magnetisierungsprozesse können wir somit besser erklären.“ Um diese Untersuchungen zukünftig in idealer Weise am Helmholtz-Zentrum Berlin zu ermöglichen, befindet sich der neue RICXS Messplatz am Speicherring BESSY II im Aufbau. Zukünftig wird dort resonante inelastische Röntgenstreuung hoher Energie und Impulsauflösung bei höchster Transmission durchgeführt werden. Mehr dazu in der Originalveroeffentlichung: M. Beye, F. Hennies, M. Deppe, E. Suljoti, M. Nagasono, W. Wurth, A. Foehlisch, Dynamics of Electron-Phonon Scattering: Crystal- and Angular-Momentum Transfer Probed by Resonant Inelastic X-Ray Scattering, Phys. Rev. Lett. 103 (2009), 237401. [...]
  • News
    29.11.2009
    Spinons – Confined like Quarks

    Phenomenon known from Particle Theory observed for the first time in Condensed Matter

    The concept of confinement is one of the central ideas in modern physics. The most famous example is that of quarks which bind together to form protons and neutrons. Now Prof. Bella Lake from Helmholtz-Zentrum Berlin (HZB) together with an international team of scientists report for the first time an experimental realization and a proof of confinement phenomenon observed in a condensed matter system. [...]

  • News
    16.11.2009
    Outstanding Results on Research in Synchrotron Radiation rewarded
    At the “First Joint BER II and BESSY II Users´ Meeting” on November 12th / 13th the “Freundeskreis Helmholtz-Zentrum Berlin e. V.” bestowed the “Ernst-Eckhard-Koch-Prize" and the „Innovation-Award on Synchrotron Radiation“ for 2009. [...]
  • Nachricht
    10.11.2009
    MAXYMUS - Neue Einsichten mit Röntgenblitzen

    Das derzeit modernste Rasterröntgenmikroskop wird vom Stuttgarter Max-Planck-Institut für Metallforschung am Helmholtz-Zentrum Berlin eingeweiht; Experten treffen sich zum Workshop über Röntgenmikroskopie Stuttgart/Berlin: Am 10. und 11. November weiht das Stuttgarter Max-Planck-Institut für Metallforschung (MPI-MF) im Rahmen des internationalen Workshops „New Frontiers in Soft X-Ray Microscopy“ feierlich sein neues Rasterröntgenmikroskop MAXYMUS an der Berliner Synchrotronstrahlungsquelle BESSY II ein. Unter der Schirmherrschaft von Professor Dr. Anke Rita Kaysser-Pyzalla, Wissenschaftliche Geschäftsführerin am Helmholtz-Zentrum Berlin (HZB), Professor Dr. Gisela Schütz, Direktorin der Abteilung „Moderne magnetische Materialien“ am MPI-MF und Dr. Brigitte Baretzky, Projektleiterin am MPI-MF treffen sich zahlreiche hochrangige Experten aus aller Welt, um über die neuesten Entwicklungen auf dem Gebiet der Röntgenmikroskopie zu diskutieren. [...]

  • News
    02.10.2009
    More than 300 Scientists at SRF 2009 in Berlin
    International Conference on RF-Superconductivity and Accelerator Physics was a great success!  [...]
  • Nachricht
    01.10.2009
    Orbital 2009 - internationaler Workshop am HZB
    Am 7. und 8. Oktober 2009 findet am Helmholtz-Zentrum Berlin am Standort Adlershof der Workshop "Orbital 2009" mit 95 Teilnehmern aus aller Welt statt. [...]
  • Nachricht
    30.09.2009
    Zweifacher Erfolg für das HZB bei der SAS-Konferenz

    SAS-Konferenz im Jahr 2015 in Berlin!  

    Die internationale Konferenz „Small Angle Scattering“ (SAS) wird im Jahr 2015 in Berlin stattfinden. Das entschied sich während der SAS2009, die vom 13. bis 18. September in Oxford stattfand.   Bei der SAS-Konferenzreihe steht die Forschung zu zerstörungsfreien Strukturcharakterisierungs-Methode der Kleinwinkelstreuung („Small Angle Scattering“) im Vordergrund, mit denen sich komplexe Materialsysteme untersuchen lassen . Die SAS-Konferenz ist eine ideale Plattform, Röntgen- wie auch Neutronenanwendungen in verschiedenen Forschungsdisziplinen zu verknüpfen. Die Ausrichtung der SAS2015 eröffnet somit gute Möglichkeiten sowohl den Wissenschaftsstandort Berlin weiter in den Mittelpunkt der internationalen Wissenschaftsgemeinde zu rücken als auch die Forschungsinfrastruktur des HZB und seiner Förderung der komplementären Anwendung von Photonen und Neutronen.   Das HZB bewarb sich in Kooperation mit dem Stranski-Institut der Technischen Universität Berlin und dem Max-Planck-Institut für Kolloid- und Grenzflächenforschung für die Ausrichtung der SAS2015 und überzeugte mit seinem Konzept. Von 260 Wählern hatten etwa 70% für Sydney als Austragungsort im Jahr 2012 in Kombination mit Berlin als Ort für die SAS2015 gestimmt. Zur Wahl für die Ausrichtung der SAS-Konferenzen, die in der Regel alle 3 Jahre tagt, standen Sydney, Knoxville und Berlin.   Federführend bei der Vorbereitung und Durchführung der erfolgreichen Bewerbung waren Professor Dr. Peter Fratzl (Max-Planck-Institut für Kolloid- und Grenzflächenforschung) als Vortragender, Professor Dr. M. Gradzielski (TU Berlin), Dr. Stephan Roth (DESY), Dr. Daniel Clemens (HZB), Dr. Armin Hoell (HZB) sowie die Kommunikationsabteilung des HZB.     [...]

  • Nachricht
    18.08.2009
    Kristallisationspunkt für Nachwuchswissenschaftler
    Workshop zur synchrotron-basierten biologischen Strukturforschung am HZB in Adlershof [...]
  • News
    31.07.2009
    New Chapter in the Research with Synchrotron Radiation
    Junior scientist from Berlin extents the range of application of X-ray methods and receives prestigious award.

    Dr. Emad Aziz Bekhit from the Helmholtz-Zentrum Berlin für Materialien und Energie (HZB) is this year's recipient of the renowned Dale Sayers Award–an award presented every three years by the International X-ray Absorption Society (IXAS), hon-ouring successful junior scientists.
    The award will be presented in Camerino (Italy) on July 31, 2009 during the largest conference on research with X-rays worldwide. The award is [...]
  • Nachricht
    19.05.2009
    HZB organisiert erfolgreich ersten Internationalen ASAXS-Workshop
    HZB organisiert erfolgreich ersten Internationalen ASAXS-Workshop [...]
  • Prof Dr. Uwe Jens Nagel (HU, 1. vom links), Prof Dr. Anke Rita Pyzalla (HZB, 3. von links, freuen sich bei der Einweihung von BEST mit Prof. Dr. Recordo Manzke (HU, ganz rechts), der von Seiten der HU die Beamline mit aufgebaut hat.
    Nachricht
    15.05.2009
    BEST - Eigene Strahllinie für studentische Nachwuchsforscher bei BESSY II eingeweiht
    Die  BEST-Experimentierplätze wurden ins Leben gerufen, um Studierende und junge Wissenschaftler in das Experimentieren mit Synchrotronstrahlung einzuführen und weiter zu qualifizieren; aber auch Master- und Doktorarbeiten sind vorgesehen. Prof. Dr. Recardo Manzke (HU), der am Aufbau der Beamline maßgeblich beteiligt war, informierte in über Hintergründe und Besonderheiten von BEST. Weltweit einmalig entsprechen Betreuung und Ausstattung dem neuesten technischen Standard und sind speziell auf die Bedürfnisse der Nachwuchswissenschaftler abgestimmt. BEST besteht aus einem hochauflösenden 5-Meter-Monochromator und zwei leistungsstarken Experimentierstationen. Die verwendeten Spektrometer entsprechen höchsten Anforderungen und ermöglichen so eine international konkurrenzfähige Forschung. [...]
  • Nachricht
    31.03.2009
    Ultrakurze Schnappschüsse von Atombewegungen

    Helmholtz-Zentrum Berlin und Uni Potsdam starten erste gemeinsame Forschergruppe unter der Leitung von Professor Bargheer

    Berlin/Potsdam, 31. März 2009̶ Zum Start des Sommersemesters richtet das Helmholtz-Zentrum Berlin (HZB) die erste gemeinsame Forschergruppe mit der Universität Potsdam ein. Die Leitung der Gruppe übernimmt der Physiker Professor Dr. Matias Bargheer, der am 1. April 2009 zum W3-Professor für „Ultraschnelle Dynamik kondensierter Materie“ an der Universität Potsdam (UP) ernannt wird. Diese Berufung der UP in Kooperation mit dem HZB und dem Max-Planck-Institut für Kolloid- und Grenzflächenforschung steht für die enge Verbindung von Universität und außeruniversitären Forschungseinrichtungen im Rahmen des neuen Potsdamer Forschungsnetzwerks  „pearls“. Die Finanzierung der Gruppe durch das HZB, zu der ein Doktorand und zwei Postdocs gehören, ist auf fünf Jahre angelegt. Im Sinne der Verbundidee von „pearls“ (s.u.)  werden sich die Postdocs der Gruppe an der Betreuung externer Nutzer an den Beamlines von Bessy II beteiligen. [...]

  • Nachricht
    04.12.2008
    Emad Flear Aziz Bekhit erhält den Ernst-Eckhard-Koch-Preis
    Für seine Doktorarbeit an der Freien Universität Berlin hat Emad Flear Aziz Bekhit heute den Ernst-Eckhard-Koch-Preis erhalten. Emad Aziz hat eine Experimentierkammer gebaut, mit denen er wässrige Proben im Ultrahochvakuum spektroskopisch untersuchen kann. Die Kammer hat den Namen LIQUIDROME und ist schon nach kurzer Zeit zu einem beliebten Werkzeug in der BESSY II Methodensammlung geworden. [...]
  • Nachricht
    04.09.2008
    Spot an – vor 10 Jahren ging die Synchrotronstrahlungsquelle BESSY II in Betrieb

    Am 4. September 1998 nahmen der damalige Forschungsminister Jürgen Rüttgers, Berlins Regierender Bürgermeister Eberhard Diepgen und die beiden Geschäftsführer der BESSY GmbH, Eberhard Jaeschke und Wolfgang Gudat, die zu dem Zeitpunkt modernste Synchrotronstrahlungsquelle der Welt in Betrieb. .„BESSY II sollte ein Kristallisationskern für den neuen Wissenschaftsstandort Berlin-Adlershof werden“, erinnert sich Hermann Schunck, damals Mitglied im Aufsichtsrat bei BESSY, an die Planungsphase. Eine Strategie, die Erfolg zeigte. [...]

  • Science Highlight
    21.05.2008
    Towards imaging ultrafast evolution in a single shot

    Research carried out by BESSY scientists in collaboration with colleagues from SLAC and SOLEIL has been featured as Editors’ Choice in the Nov. 23 issue of the Science Magazine. In the Optics Letters article by W. F. Schlotter et al., multiplexed x-ray holograms generated simultaneously from many objects are presented. The feasibility of this approach implies that ultrafast pump-probe time sequences can be recorded with free electron x-ray lasers in this way. [...]

  • Nachricht
    17.12.2007
    Qumran-Rollen vom Toten Meer an BESSY II untersucht

    Antike Schriftstücke vor dem Verfall zu bewahren oder sie zu restaurieren ist eine Kunst für sich. Um sie auszuüben, ist es von enormer Bedeutung herauszufinden, wie beispielsweise Pergament durch bestimmte Tinten über die Jahrhunderte zerstört wird; und wie dies zu vermeiden wäre. Für solche Untersuchungen ist Röntgenstrahlung ein hervorragendes Werkzeug. Um diese Forschungsarbeiten zu unterstützen, hat BESSY nun einen Röntgenmessplatz so ausgestattet, dass auch sehr empfindliche Objekte, wie antike Pergamentrollen oder Gemälde auf Leinwand oder Holz untersucht werden können, ohne dabei Schaden zu nehmen. [...]

  • Nachricht
    14.11.2006
    Untersuchungen selbstorganisierter Nanostrukturen bei BESSY mit Carl-Ramsauer-Preis ausgezeichnet

    Der Physiker Dr. Andrei Varykhalov hat Quantenphänomene in seiner Dissertation studiert, seine Untersuchungen führte er am Berliner Elektronenspeicherring BESSY durch. Für seine Arbeit mit dem Titel Quanteneffekte in der elektronischen Struktur neuer selbstorganisierter Systeme mit reduzierter Dimensionalität wird er von der Physikalischen Gesellschaft zu Berlin mit dem Carl-Ramsauer-Preis ausgezeichnet. [...]

  • Nachricht
    22.05.2006
    Bestnoten für das BESSY FEL Projekt

    Der Wissenschaftsrat hat in seiner heute vorgestellten Stellungnahme zu zwei Großgeräten der naturwissenschaftlichen Grundlagenforschung die Förderung des BESSY Freie Elektronen Lasers unter Auflagen empfohlen. Es gäbe derzeit keine Initiative, die sich in Bezug auf die technischen Rahmenbedingungen und der wissenschaftlichen Kompetenz des Teams mit dem BESSY Projekt vergleichen ließe, so die Gutachter weiter. [...]