Litcius/Paper detail

Spatially Shaping Waves to Penetrate Deep inside a Forbidden Gap

Ravitej Uppu, Manashee Adhikary, Cornelis A.M. Harteveld, Willem L. Vos

2021Physical Review Letters32 citationsDOIOpen Access PDF

Abstract

It is well known that waves with frequencies within the forbidden gap inside a crystal are transported only over a limited distance-the Bragg length-before being reflected by Bragg interference. Here, we demonstrate how to send waves much deeper into crystals in an exemplary study of light in two-dimensional silicon photonic crystals. By spatially shaping the wave fronts, the internal energy density-probed via the laterally scattered intensity-is enhanced at a tunable distance away from the front surface. The intensity is up to 100× enhanced compared to random wave fronts, and extends as far as 8× the Bragg length, which agrees with an extended mesoscopic model. We thus report a novel control knob for mesoscopic wave transport that pertains to any kind of waves.

Topics & Concepts

WavefrontOpticsBragg's lawPhotonic crystalPhysicsInterference (communication)Intensity (physics)DiffractionTelecommunicationsChannel (broadcasting)Computer scienceRandom lasers and scattering mediaPhotonic Crystals and ApplicationsPhotonic and Optical Devices