Litcius/Paper detail

Observation of photonic constant-intensity waves and induced transparency in tailored non-Hermitian lattices

Andrea Steinfurth, Ivor Krešić, Sebastian Weidemann, Mark Kremer, Konstantinos G. Makris, Matthias Heinrich, Stefan Rotter, Alexander Szameit

2022Science Advances36 citationsDOIOpen Access PDF

Abstract

Light propagation is strongly affected by scattering due to imperfections in the complex medium. It has been recently theoretically predicted that a scattering-free transport through an inhomogeneous medium is achievable by non-Hermitian tailoring of the complex refractive index. Here, we implement photonic constant-intensity waves in an inhomogeneous, linear, discrete mesh lattice. By extending the existing theoretical framework, we experimentally show that a driven non-Hermitian tailoring allows us to control the propagation and diffraction of light even in highly disordered systems. In this vein, we demonstrate the transmission of shape-preserving beams and the seemingly undistorted propagation of light excitations across a strongly inhomogeneous non-Hermitian photonic lattice that can be realized by coupled optical fiber loops. Our results lead to a deeper understanding of non-Hermitian wave control and further contribute to the development of non-Hermitian photonics.

Topics & Concepts

Hermitian matrixPhotonicsPhysicsScatteringOpticsPhotonic crystalRefractive indexPropagation constantComputational physicsQuantum mechanicsQuantum Mechanics and Non-Hermitian PhysicsNonlinear Photonic SystemsAdvanced Fiber Laser Technologies