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Chiral response of twisted bilayer graphene
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We present an effective (minimal) theory for chiral two-dimensional materials. These materials possess an electro-magnetic coupling without exhibiting a topological gap. As an example, we study the response of doped twisted bilayers, unveiling unusual phenomena in the zero frequency limit. An in-plane magnetic field induces a huge paramagnetic response at the neutrality point and, upon doping, also gives rise to a substantial longitudinal Hall response. The system also accommodates nontrivial longitudinal plasmonic modes which are associated with a longitudinal magnetic moment, thus endowing them with a chiral character. Finally, we note that the optical activity can be considerably enhanced upon doping.
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Enhanced enantiomer discrimination with chiral surface plasmons
Chiral surface plasmons achieve up to an order of magnitude higher enantiomer discrimination than chiral cavities via stronger confinement and a √2 orientation-averaged geometric boost from planar dipole coupling.
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