Litcius/Paper detail

Vortex of beam shift induced by mono-chiral interface states

Mou Yang, Quan-Teng Hou, Rui-Qiang Wang

2020New Journal of Physics12 citationsDOIOpen Access PDF

Abstract

Abstract If an electron beam hits onto the interface of a Weyl-node-mismatch junction, a shift of the beam center on the interface happens when the beam is reflected or transmitted, where the junction consists of two materials of the same Weyl semimetal and one of them is rotated with respect to the other by an angle. We calculate the longitudinal and transverse shift components (the Goos–Hänchen and Imbert–Fedorov shifts). The reflection shift for total reflection cases is much more remarkable than the shift for transmitted cases. There exists a semi-vortex structure of the reflection shift on the in-plane k -space. The vortex is induced by the touch between bulk bands and interface bands. The formation of such interface bands is explained by the pulley-group model, in which the Weyl cones serve as wheels and the surface and interface bands act as ropes. A surface rope connects wheels of opposite chiralities, and an interface rope links the wheels for the two side materials of the same chirality.

Topics & Concepts

PhysicsRopeWeyl semimetalReflection (computer programming)VortexBeam (structure)Condensed matter physicsTransverse planeOpticsChirality (physics)Surface (topology)GeometryQuantum mechanicsSemimetalMechanicsBand gapEngineeringNambu–Jona-Lasinio modelQuarkComputer scienceMathematicsChiral symmetry breakingProgramming languageStructural engineeringTopological Materials and PhenomenaTerahertz technology and applicationsQuantum Mechanics and Non-Hermitian Physics