Holographic models for undoped Weyl semimetals

A Zyuzin; AA Burkov; CP Herzog; Erik Plauschinn; GT Horowitz; H Liu; Henk Stoof; J McGreevy; J Tarrio; LD Landau; LQ Fang; M Alishahiha; M Cubrovic; M Cubrovic; N Bao; N Iizuka; N Iqbal; N Iqbal; P Hosur; R Contino; S Kachru; S Sachdev; S-S Lee; SA Hartnoll; SA Hartnoll; SA Hartnoll; SA Hartnoll; Stefan Vandoren; T Faulkner; T Faulkner; T Meng; U Gürsoy; Umut Gürsoy; V Keranen; Vivian Jacobs; X Wan

research

Holographic models for undoped Weyl semimetals

Authors: A Zyuzin
AA Burkov
CP Herzog
Erik Plauschinn
GT Horowitz
H Liu
Henk Stoof
J McGreevy
J Tarrio
LD Landau
LQ Fang
M Alishahiha
M Cubrovic
M Cubrovic
N Bao
N Iizuka
N Iqbal
N Iqbal
P Hosur
R Contino
S Kachru
S Sachdev
S-S Lee
SA Hartnoll
SA Hartnoll
SA Hartnoll
SA Hartnoll
Stefan Vandoren
T Faulkner
T Faulkner
T Meng
U Gürsoy
Umut Gürsoy
V Keranen
Vivian Jacobs
X Wan
Publication date: 13 September 2012
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We continue our recently proposed holographic description of single-particle correlation functions for four-dimensional chiral fermions with Lifshitz scaling at zero chemical potential, paying particular attention to the dynamical exponent z = 2. We present new results for the spectral densities and dispersion relations at non-zero momenta and temperature. In contrast to the relativistic case with z = 1, we find the existence of a quantum phase transition from a non-Fermi liquid into a Fermi liquid in which two Fermi surfaces spontaneously form, even at zero chemical potential. Our findings show that the boundary system behaves like an undoped Weyl semimetal.Comment: 64 pages, 19 figure