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Hauptverfasser: Anashkina, Elena A., Andrianov, Alexey V.
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2407.07594
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author Anashkina, Elena A.
Andrianov, Alexey V.
author_facet Anashkina, Elena A.
Andrianov, Alexey V.
contents We demonstrate theoretically and experimentally that linear coupling due to the backscattering between two counterpropagating modes in a Kerr microresonator leads to extreme sensitivity of the intensity asymmetry of nonlinear light states to the relative phase between the bidirectional pumps of equal power. In the absence of linear coupling, the relative pump phase does not affect counterpropagating intraresonator intensities, and two asymmetric states arise due to spontaneous symmetry breaking. Contrariwise, in the presence of weak linear intermode coupling, the asymmetry of the states is deterministically controlled via changes in phase (for all phases except 0 and $π$). Spontaneous symmetry breaking at zero phase is suppressed when the linear intermode coupling is increased, while for the $π$ phase it can be enhanced, so that the overall threshold for the spontaneous symmetry breaking can be significantly lower for nonzero linear coupling. These results are important for fundamental understanding of the processes in Kerr resonators and other systems with Kerr-like nonlinearities and linear intermode coupling and have high prospects for the development of photonic devices such as ultrasensitive sensors.
format Preprint
id arxiv_https___arxiv_org_abs_2407_07594
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Phase-sensitive symmetry breaking in bidirectionally pumped Kerr microresonators
Anashkina, Elena A.
Andrianov, Alexey V.
Optics
We demonstrate theoretically and experimentally that linear coupling due to the backscattering between two counterpropagating modes in a Kerr microresonator leads to extreme sensitivity of the intensity asymmetry of nonlinear light states to the relative phase between the bidirectional pumps of equal power. In the absence of linear coupling, the relative pump phase does not affect counterpropagating intraresonator intensities, and two asymmetric states arise due to spontaneous symmetry breaking. Contrariwise, in the presence of weak linear intermode coupling, the asymmetry of the states is deterministically controlled via changes in phase (for all phases except 0 and $π$). Spontaneous symmetry breaking at zero phase is suppressed when the linear intermode coupling is increased, while for the $π$ phase it can be enhanced, so that the overall threshold for the spontaneous symmetry breaking can be significantly lower for nonzero linear coupling. These results are important for fundamental understanding of the processes in Kerr resonators and other systems with Kerr-like nonlinearities and linear intermode coupling and have high prospects for the development of photonic devices such as ultrasensitive sensors.
title Phase-sensitive symmetry breaking in bidirectionally pumped Kerr microresonators
topic Optics
url https://arxiv.org/abs/2407.07594