01552nas a2200181 4500008004100000245007900041210006900120260001500189300001100204490000700215520101200222100002101234700001901255700001901274700001901293700002101312856003701333 2017 eng d00aHigh-Order Multipole Radiation from Quantum Hall States in Dirac Materials0 aHighOrder Multipole Radiation from Quantum Hall States in Dirac c2017/06/30 a2354390 v953 a
Topological states can exhibit electronic coherence on macroscopic length scales. When the coherence length exceeds the wavelength of light, one can expect new phenomena to occur in the optical response of these states. We theoretically characterize this limit for integer quantum Hall states in two-dimensional Dirac materials. We find that the radiation from the bulk is dominated by dipole emission, whose spectral properties vary with the local disorder potential. On the other hand, the radiation from the edge is characterized by large multipole moments in the far-field associated with the efficient transfer of angular momentum from the electrons into the scattered light. These results demonstrate that high-order multipole transitions are a necessary component for the optical spectroscopy and control of quantum Hall and related topological states in electronic systems.
1 aGullans, Michael1 aTaylor, J., M.1 aImamoglu, Atac1 aGhaemi, Pouyan1 aHafezi, Mohammad uhttps://arxiv.org/abs/1701.03464