Within the last two decades resonant soft X-ray diffraction (RSXD) has emerged as a highly efficient experimental technique. It allows probing nanoscale ordering phenomena in solid state materials, like electronic order, charge or orbital order, as well as magnetic order. In particular, RSXD is one of the few methods that can probe antiferromagnetic order. For these reasons time-resolved pump -probe RSXD is ideally suited to study the dynamics of photo-induced phase transitions in complex materials when it is combined with ultra-short photon pulses.
A special case of resonant x-ray diffraction is the spectroscopic measurement of the specular sample surface (single Bragg plane) reflection at grazing incidence angles (<12°). The advantage of x-ray reflection spectroscopy (XRS) over XAS in transmission geometry is that it lifts the strong constrain of having to use thin films of a few tens of nanometers thickness as a sample. This allows access to dynamics in crystalline bulk samples and films or nanostructures grown on thicker substrates.
Since 2008 the RXD and more recently XRS have been made available for ultrafast studies at the FemtoSpeX Slicing Facility. A dedicated two circle UHV diffractometer has been set up for diffraction (reflection) geometries within the horizontal plane. By cryogenic cooling sample temperatures down to 6K can be reached. Avalanche photodiodes (APDs) are used for gated photon pulse detection. The angular acceptance of the diffractometer is set by vertical detector entrance slits of variable size. The APDs are screened from light of the pump-laser by Al membranes (Luxel Corporation) and a light tight housing. Low noise amplification (ca. 60dB by Hamamatsu and Kuhne preamplifiers) allows besides analog pulse detection for time-correlated single-photon pulse counting. Generally signals as low as ~5 photons/sec from the sample can be detected. This corresponds to a diffraction (reflection) efficiency of >5e-5.
List of publications
|Temperature range||6 - 400 K|
|Pressure Range||For details contact the station scientist(s).|
|Detector||photon detection (see detection special features below)|
|Manipulators||x/y/z; two cycle goniometer|
|Sample holder compatibility||For details contact the station scientist(s).|
|sample environment||• in-situ sample cleaving available |
• sample transfer system available
• measurements at cryogenic temperatures possible
|detection special features||• fs-laser synchronized gated detection (Avalanche Photo Diode) |
• Single photon counting detection for low intensity measurements
• laser light screened detection (>1e12 attenuation)
• sample current measurement available
• data acquisition via SPEC
|diffractometer features||• motor controlled two-circle goniometer |
• Software motion control via SPEC
• variable angular resolution
|UHV||< 1e-9mbar (turbo-molecular pump, ion pump, LN-cooling trap)|
|miscellaneous||laser safety protected viewports|