Ferromagnetic Quantum Phase Transition in a Dirac Semimetal

George De Coster; Dietrich Belitz; Theodore Kirkpatrick

Ferromagnetic Quantum Phase Transition in a Dirac Semimetal

ORAL

Abstract

We investigate the quantum ferromagnetic transition in a Dirac Semimetal (DSM) doped away from the charge neutrality point. In an ordinary Fermi liquid the coupling of the magnetization to the fermions is known to drive the transition first order [1]. In a DSM the spin dependence of the Hamiltonian requires a re-analysis of this problem. Our theory is general, and allows us to consider both the DSM case as the limit of strong spin-orbit coupling, and ordinary metallic magnets with a weak spin-orbit interaction.

[1] M. Brando, D. Belitz, F.M. Grosche, and T.R. Kirkpatrick, Rev. Mod. Phys. 88, 025006 (2016).

^*This work was supported by the NSF under Grants No. DMR-1401410 and No. DMR-1401449.

March 7, 2018, 9:36 AM – March 7, 2018, 9:48 AM

Presenters

George De Coster
- US Army Research Laboratory

Authors

George De Coster
- US Army Research Laboratory
Dietrich Belitz
- Univ of Oregon
- Univ. of Oregon
- Dept. of Physics, University of Oregon
Theodore Kirkpatrick
- Univ. of Maryland
- IPST, University of Maryland