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  Cao, Y.; Lin, K.; Liu, Z.; Hu, J.; Wang, C.W.; Liu, X.; Tereshina-Chitrova, E.; Kato, K.; Li, Q.; Deng, J.; Chen, J.; Zhang, H.; Xing, X.: Manipulating Spin Alignments of (Y,Lu)_1.7Fe₁₇ Intermetallic Compounds via Unusual Thermal Pressure. Inorganic Chemistry 59 (2020), p. 5247-5251

10.1021/acs.inorgchem.9b03570

Abstract:
External pressure has been successfully employed to achieve desirable spin alignments in the field of materials science but is seriously restricted by the difficulty of reaching high pressure with conventional methods. The search for simple and effective ways to apply pressure on the lattice is challenging but intriguing. Here we report a new strategy to manipulate the spin alignments of (Y,Lu)1.7Fe17 intermetallic compounds through unusual thermal pressure. The spin alignments of Fe initially lie parallel inside the basal plane and then turn spirally between adjacent layers with a zone axis along the c direction under higher Lu concentration. The synchrotron and neutron powder diffraction investigations clearly reveal that the direction of spin alignments is highly correlated to large lattice contraction induced by negative thermal expansion (NTE), an unusual thermal pressure, along the c direction. The critical lattice parameter c to form spiral spin alignments is determined unambiguously. This work presents a feasible way to adjust spin alignments through NTE, which might be conducive to the future design of particular spin alignments instead of physical pressure for functional magnetic materials.