TY - JOUR
T1 - Optical Hall effect and gyrotropy of surface polaritons in Weyl semimetals
AU - Chen, Qianfan
AU - Erukhimova, Maria
AU - Tokman, Mikhail
AU - Belyanin, Alexey
N1 - Publisher Copyright:
© 2019 American Physical Society.
PY - 2019/12/26
Y1 - 2019/12/26
N2 - Weyl semimetals possess unique electrodynamic properties due to a combination of strongly anisotropic and gyrotropic bulk conductivity, surface conductivity, and surface dipole layer. In particular, the gyrotropy caused by Weyl node separation in momentum space gives rise to the optical Hall effect for surface polaritons at the boundaries parallel to the gyrotropic axis. We explore the potential of popular tip-enhanced optical spectroscopy techniques for studies of bulk and surface topological electron states in these materials. Strong anisotropy, anomalous dispersion, and the optical Hall effect for surface polaritons launched by a nanotip provide information about Weyl node position and separation in the Brillouin zone, the value of the Fermi momentum, and the matrix elements of the optical transitions involving both bulk and surface electron states.
AB - Weyl semimetals possess unique electrodynamic properties due to a combination of strongly anisotropic and gyrotropic bulk conductivity, surface conductivity, and surface dipole layer. In particular, the gyrotropy caused by Weyl node separation in momentum space gives rise to the optical Hall effect for surface polaritons at the boundaries parallel to the gyrotropic axis. We explore the potential of popular tip-enhanced optical spectroscopy techniques for studies of bulk and surface topological electron states in these materials. Strong anisotropy, anomalous dispersion, and the optical Hall effect for surface polaritons launched by a nanotip provide information about Weyl node position and separation in the Brillouin zone, the value of the Fermi momentum, and the matrix elements of the optical transitions involving both bulk and surface electron states.
UR - http://www.scopus.com/inward/record.url?scp=85077504750&partnerID=8YFLogxK
U2 - 10.1103/PhysRevB.100.235451
DO - 10.1103/PhysRevB.100.235451
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AN - SCOPUS:85077504750
SN - 2469-9950
VL - 100
JO - Physical Review B
JF - Physical Review B
IS - 23
M1 - 235451
ER -