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RESEARCH PRODUCT

Dissipative Polarization Domain Walls in a Passive Coherently Driven Kerr Resonator.

Stéphane CoenStuart G. MurdochGian-luca OppoJulien FatomeJulien FatomeMiro ErkintaloBruno GarbinBruno Garbin

subject

PhysicsOptical fiberCondensed matter physicsOrthogonal polarization spectral imagingGeneral Physics and AstronomyPolarization (waves)01 natural scienceslaw.inventionResonatorlaw0103 physical sciencesDissipative systemSymmetry breaking010306 general physicsQCBifurcationExcitation

description

Using a passive, coherently driven nonlinear optical fiber ring resonator, we report the experimental realization of dissipative polarization domain walls. The domain walls arise through a symmetry breaking bifurcation and consist of temporally localized structures where the amplitudes of the two polarization modes of the resonator interchange, segregating domains of orthogonal polarization states. We show that dissipative polarization domain walls can persist in the resonator without changing shape. We also demonstrate on-demand excitation, as well as pinning of domain walls at specific positions for arbitrary long times. Our results could prove useful for the analog simulation of ubiquitous domain-wall related phenomena, and pave the way to an all-optical buffer adapted to the transmission of topological bits.

yearjournalcountryeditionlanguage
2021-01-15Physical review letters
10.1103/physrevlett.126.023904https://pubmed.ncbi.nlm.nih.gov/33512212