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Controllable unidirectional transport and light trapping using a one-dimensional lattice with non-Hermitian coupling

Lei Du, Yan Zhang, Jin-Hui Wu

2020Scientific Reports24 citationsDOIOpen Access PDF

Abstract

We propose a one-dimensional tight-binding lattice with special non-Hermitian coupling, the imaginary part of which is modulated by an effective Peierls phase arising from the synthetic magnetic field. Such a non-Hermitian lattice supports robust unidirectional transport that is reflectionless and immune to defects; it thus can serve as a frequency-selectable light filter. To achieve more applications, we further construct two well-designed structures involving this lattice, namely a heterostructure and a sandwich structure. An optical diode can be realized using the heterostructure, while tunable light trapping and reversal can be realized through phase modulations on the sandwich structure. The results in this paper may not only open up a new path for unconventional light transport but also have potential applications for optical communication.

Topics & Concepts

Lattice (music)TrappingHeterojunctionDiodeCondensed matter physicsCoupling (piping)Materials scienceOptoelectronicsPhysicsPhase (matter)Optical latticeLight-emitting diodeOptical tweezersOpticsOptical pathRayInductive couplingOptical isolatorMagnetic fieldQuantum Mechanics and Non-Hermitian PhysicsTopological Materials and PhenomenaNonlinear Photonic Systems
Controllable unidirectional transport and light trapping using a one-dimensional lattice with non-Hermitian coupling | Litcius