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Universal power law decay in the dynamic hysteresis of an optical cavity with non-instantaneous photon-photon interactions

We investigate, experimentally and theoretically, the dynamic optical hysteresis of a coherently driven cavity with non-instantaneous photon-photon interactions. By scanning the frequency detuning between the driving laser and the cavity resonance at different speeds across an optical bistability, we find a hysteresis area that is a non-monotonic function of the scanning speed. As the scanning speed increases and approaches the memory time of the photon-photon interactions, the hysteresis area decays following a power law with exponent -1. The exponent of this power law is independent of the system parameters. To reveal this universal scaling behavior theoretically, we introduce a memory kernel for the interaction term in the standard driven-dissipative Kerr model. Our results offer new perspectives for exploring non-Markovian dynamics of light using arrays of bistable cavities with low quality factors, driven by low laser powers, and at room temperature.

preprint2019arXivOpen access
Z. GengK. J. H. PetersA. A. P. TrichetK. MalmirR. KolkowskiJ. M. SmithS. R. K. Rodriguez
cond-mat.otherphysics.optics
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Z. GengK. J. H. PetersA. A. P. TrichetK. MalmirR. KolkowskiJ. M. SmithS. R. K. Rodriguez

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