Temperature dependence of electron-phonon interactions in vanadium

Creators: Yang, F. C.; Hellman, O.; Fultz, B.

Abstract

First-principles calculations were used to study the Fermi surface of body-centered cubic vanadium at elevated temperatures. Supercell calculations accounted for effects of thermal atom displacements on band energies, and band unfolding was used to project the spectral weight of the electron states into the Brillouin zone of a standard bcc unit cell. An electronic topological transition (ETT, or Lifshitz transition) occurred near the Γ point with increasing temperature, but the large thermal smearings from the atomic disorder and the Fermi-Dirac distribution reduced the effect of this ETT on the electron-phonon interactions. The phonon dispersions showed thermal stiffening of their Kohn anomalies near the Γ point and of the longitudinal N phonon mode. In general the effects of the ETT were overcome by the thermal smearing of the Fermi surface that reduces the spanning vector densities for anomalous phonon modes.

Additional Information

© 2020 American Physical Society. (Received 18 July 2019; revised manuscript received 17 December 2019; accepted 24 December 2019; published 12 March 2020) This work was supported by DOE BES under Contract No. DE-FG02-03ER46055. The calculations performed herein were made possible by resources of the National Energy Research Scientific Computing Center, a DOE Office of Science User Facility supported by the Office of Science of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231.

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Published - PhysRevB.101.094305.pdf

Supplemental Material - Yang_V_Supplemental.pdf

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