We investigate the spin Hall effect of W-Hf thin films, which exhibit a phase transition from a segregated phase mixture to an amorphous alloy below 70% W. The spin Hall angle was determined with a planar harmonic Hall voltage technique. Due to the accompanying jump in resistivity, the spin Hall angle shows a pronounced maximum at the composition of the phase transition. The spin Hall conductivity does, however, reduce from W to Hf with a weak discontinouity across the phase transition. The maximum spin Hall angle of θSH=−0.25 is obtained for amorphous W0.7Hf0.3. A detailed comparison with spin Hall conductivities calculated from first principles for hcp, fcc, and bcc solid solutions provides valuable insight into the alloying physics of this binary system.
@article{arxiv.1801.02524,
title = {Large Spin Hall Effect in an Amorphous Binary Alloy},
author = {Markus Meinert and Katharina Fritz and Sebastian Wimmer and Hubert Ebert},
journal= {arXiv preprint arXiv:1801.02524},
year = {2018}
}