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Observation of supersymmetric pseudo-Landau levels in strained microwave graphene

Bellec, Matthieu, Poli, Charles, Kuhl, Ulrich, Mortessagne, Fabrice, Schomerus, Henning

2020Lancaster EPrints (Lancaster University)52 citationsOpen Access PDF

Abstract

Using an array of coupled microwave resonators arranged in a deformed honeycomb lattice, we experimentally observe the formation of pseudo-Landau levels in the whole crossover from vanishing to large pseudomagnetic field strengths. This result is achieved by utilising an adaptable setup in a geometry that is compatible with the pseudo-Landau levels at all field strengths. The adopted approach enables us to observe the fully formed flat-band pseudo-Landau levels spectrally as sharp peaks in the photonic density of states and image the associated wavefunctions spatially, where we provide clear evidence for a characteristic nodal structure reflecting the previously elusive supersymmetry in the underlying low-energy theory. In particular, we resolve the full sublattice polarisation of the anomalous 0th pseudo-Landau level, which reveals a deep connection to zigzag edge states in the unstrained case.

Topics & Concepts

Landau quantizationZigzagPhysicsResonatorCondensed matter physicsMicrowaveLattice (music)Polarization (electrochemistry)GrapheneDensity of statesQuantum mechanicsMagnetic fieldOpticsGeometryMathematicsChemistryAcousticsPhysical chemistryTopological Materials and PhenomenaGraphene research and applicationsQuantum and electron transport phenomena
Observation of supersymmetric pseudo-Landau levels in strained microwave graphene | Litcius