Spontaneous polarization symmetry breaking of light in a microresonator
2021 CONFERENCE ON LASERS AND ELECTRO-OPTICS EUROPE & EUROPEAN QUANTUM ELECTRONICS CONFERENCE (CLEO/EUROPE-EQEC)(2021)
摘要
Birefringence - the difference in refractive index for othogonally polarized light - can manifest in the linear coupling between orthogonal modes in a given polarization basis. Inside of a resonator, birefringence leads to different resonance frequencies depending on the light’s polarization. Generally, at high intracavity powers the Kerr nonlinearity induces an intensity-dependent refractive index. In the case of circular polarized light in a cavity, the light can experience two types of Kerr effects: self-phase modulation (SPM) of the light wave with itself and cross-phase modulation (XPM) with a circular polarized lightwave of opposite handedness. In general, the effects of SPM and XPM have different magnitudes, with XPM being twice as strong in silica [1] .
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关键词
different resonance frequencies,high intracavity powers,Kerr nonlinearity,intensity-dependent refractive index,circular polarized light,Kerr effects,self-phase modulation,light wave,cross-phase modulation,XPM,circular polarized lightwave,different magnitudes,spontaneous polarization symmetry breaking,microresonator,birefringence,othogonally polarized light - can,linear coupling,orthogonal modes,given polarization basis,resonator
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