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Impact of Transforming Interface Geometry on Edge States in Valley Photonic Crystals

D. Yu, Sonakshi Arora, L. Kuipers

2024Physical Review Letters13 citationsDOI

Abstract

We investigate how altering the interface geometry from a zigzag to a glide plane interface between two topologically distinct valley Hall emulating photonic crystals (VPC), profoundly affects edge states. We experimentally observe a transition from gapless to gapped edge states, accompanied by the occurrence of slow light within the Brillouin zone, rather than at its edge. We numerically simulate the propagation and measure the transmittance of the modified edge states through a specially designed valley-conserving defect. The robustness to backscattering gradually decreases, suggesting a disruption of valley-dependent transport. We demonstrate the significance of interface geometry to gapless edge states in a VPC.

Topics & Concepts

Gapless playbackZigzagBrillouin zoneGeometryEnhanced Data Rates for GSM EvolutionCondensed matter physicsTransmittancePhotonicsPhysicsMaterials scienceOpticsComputer scienceMathematicsTelecommunicationsTopological Materials and PhenomenaPhotonic Crystals and ApplicationsRandom lasers and scattering media
Impact of Transforming Interface Geometry on Edge States in Valley Photonic Crystals | Litcius