265 research outputs found
Theory of magnetic oscillations in Weyl semimetals
Weyl semimetals are a new class of Dirac material that posses bulk energy
nodes in three dimensions. In this paper, we study a Weyl semimetal subject to
an applied magnetic field. We derive expressions for the density of states,
electronic specific heat, and the quantum oscillations of the magnetization, DC
conductivity, and thermal conductivity. We find phase shifts in the quantum
oscillations that distinguish the Weyl semimetal from conventional three
dimensional Schr\"odinger Fermions.Comment: 11 pages, 5 figure
Impact of Electron-Phonon Coupling on Near-Field Optical Spectra
The finite momentum transfer () longitudinal optical response
of graphene has a peak at an energy
. This corresponds directly to a quasiparticle peak in the
spectral density at momentum relative to the Fermi momentum . Inclusion
of coupling to a phonon mode at results, for , in
a constant electron-phonon renormalization of the bare bands by a mass
enhancement factor and this is followed by a phonon kink at
where additional broadening begins. Here we study the corresponding
changes in the optical quasiparticle peaks which we find to continue to
directly track the renormalized quasiparticle energies until is large
enough that the optical transitions begin to sample the phonon kink region of
the dispersion curves where linearity in momentum is lost in the renormalized
Dirac Fermion dispersion curves and the correspondence to a single
quasiparticle energy is lost. Nevertheless there remains in
features analogous to the phonon kinks of the
dispersion curves which are observable through variation of and .Comment: 6 pages, 5 figure
- …