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Autori principali: Real, Bastián, Solano, Pablo, Hermann-Avigliano, Carla
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2407.12520
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author Real, Bastián
Solano, Pablo
Hermann-Avigliano, Carla
author_facet Real, Bastián
Solano, Pablo
Hermann-Avigliano, Carla
contents Controlling light propagation in photonic systems fosters fundamental research and practical application. Particularly, photonic lattices allow engineering band dispersions and tailor transport features through their geometry. However, complete controllability requires external manipulation of the propagating light. Here, we present a resonant excitation scheme to observe quasi-1D and uni-directional propagation of light through the bulk of two-dimensional lattices. To this end, we use the highly anisotropic light propagation exhibited at the energy of saddle points in photonic bands. When multiple drives with judicious amplitudes and phases are tuned to such energy, interference effects between these drives and photonic modes result in controllable directional propagation through the bulk. Similarly, one can formed localized states with controllable localization degrees. We illustrate these effects with driven-dissipative photonic lattices. Our work highlights the importance of external drives for dynamically controlling directional light transport in lattices, a relevant feature for all-optical routing and processing in photonics.
format Preprint
id arxiv_https___arxiv_org_abs_2407_12520
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Controlling directional propagation in driven-dissipative 2D photonic lattices
Real, Bastián
Solano, Pablo
Hermann-Avigliano, Carla
Optics
Controlling light propagation in photonic systems fosters fundamental research and practical application. Particularly, photonic lattices allow engineering band dispersions and tailor transport features through their geometry. However, complete controllability requires external manipulation of the propagating light. Here, we present a resonant excitation scheme to observe quasi-1D and uni-directional propagation of light through the bulk of two-dimensional lattices. To this end, we use the highly anisotropic light propagation exhibited at the energy of saddle points in photonic bands. When multiple drives with judicious amplitudes and phases are tuned to such energy, interference effects between these drives and photonic modes result in controllable directional propagation through the bulk. Similarly, one can formed localized states with controllable localization degrees. We illustrate these effects with driven-dissipative photonic lattices. Our work highlights the importance of external drives for dynamically controlling directional light transport in lattices, a relevant feature for all-optical routing and processing in photonics.
title Controlling directional propagation in driven-dissipative 2D photonic lattices
topic Optics
url https://arxiv.org/abs/2407.12520