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Main Authors: Kokkinakis, Emmanouil T., Komis, Ioannis, Makris, Konstantinos G.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.12463
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author Kokkinakis, Emmanouil T.
Komis, Ioannis
Makris, Konstantinos G.
author_facet Kokkinakis, Emmanouil T.
Komis, Ioannis
Makris, Konstantinos G.
contents Two-dimensional non-Hermitian photonic lattices with asymmetric couplings offer rich possibilities for controlling wave localization, through the emergence of the non-Hermitian skin effect at lattice corners or sides. Incorporating optical nonlinearity fundamentally alters these boundary-localization characteristics. Here we show that in a two-dimensional Hatano-Nelson lattice with Kerr nonlinearity, the interplay between self-trapping and directional propagation leads to position dependent amplitude thresholds. Single-site excitations having above a critical amplitude become confined to their initial position, with lower thresholds near the position where the linear eigenmodes are localized and higher thresholds within the lattice's bulk. Additionally, we study the differences of this dynamical interplay, for wider initial excitations, between the focusing and defocusing Kerr-nonlinearity regimes. Lastly, we identify skin soliton solutions in a variety of two-dimensional lattice geometries featuring coupling asymmetry.
format Preprint
id arxiv_https___arxiv_org_abs_2505_12463
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Self-trapping and skin solitons in two-dimensional non-Hermitian lattices
Kokkinakis, Emmanouil T.
Komis, Ioannis
Makris, Konstantinos G.
Pattern Formation and Solitons
Optics
Two-dimensional non-Hermitian photonic lattices with asymmetric couplings offer rich possibilities for controlling wave localization, through the emergence of the non-Hermitian skin effect at lattice corners or sides. Incorporating optical nonlinearity fundamentally alters these boundary-localization characteristics. Here we show that in a two-dimensional Hatano-Nelson lattice with Kerr nonlinearity, the interplay between self-trapping and directional propagation leads to position dependent amplitude thresholds. Single-site excitations having above a critical amplitude become confined to their initial position, with lower thresholds near the position where the linear eigenmodes are localized and higher thresholds within the lattice's bulk. Additionally, we study the differences of this dynamical interplay, for wider initial excitations, between the focusing and defocusing Kerr-nonlinearity regimes. Lastly, we identify skin soliton solutions in a variety of two-dimensional lattice geometries featuring coupling asymmetry.
title Self-trapping and skin solitons in two-dimensional non-Hermitian lattices
topic Pattern Formation and Solitons
Optics
url https://arxiv.org/abs/2505.12463