Litcius/Paper detail

Topological Langmuir-cyclotron wave

Hong Qin, Yichen Fu

2023Science Advances32 citationsDOIOpen Access PDF

Abstract

A theory is developed to describe the topological Langmuir-cyclotron wave (TLCW), a topological excitation in magnetized plasmas recently identified by numerical simulations. As a topological wave in a continuous medium, the TLCW propagates unidirectionally without scattering in complex boundaries and can be explored as an effective mechanism to energize particles. We show that, because momentum space in continuous media is contractible in general, the topology of the wave bundles is trivial over momentum space that contains no degeneracy points. This is in stark contrast to condensed matters with periodic lattice structures that impose nontrivial topology on momentum space. In continuous media without lattice structures, nontrivial topology of the eigenmode bundles manifests over phase space, and it is the nontrivial topology over phase space that underpins the topological excitations, such as the TLCW. It is shown that the TLCW can be faithfully modeled by a generic tilted Dirac cone in phase space, whose entire spectrum, including the spectral flow, is given.

Topics & Concepts

PhysicsTopology (electrical circuits)Position and momentum spacePhase spaceLattice (music)Quantum mechanicsMathematicsAcousticsCombinatoricsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsMagnetic confinement fusion research
Topological Langmuir-cyclotron wave | Litcius