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We describe how photon-phonon interactions can be used to achieve large optical non-reciprocity and ideal optical isolation with integrated photonics. Our experiments rely on breaking time-reversal symmetry within dielectrics (e.g. silica, aluminum nitride, lithium niobate) using the Brillouin scattering nonlinearity. We show how the breaking of time-reversal symmetry can also be used to suppress disorder-induced backscattering in optical resonators.
Gaurav Bahl
"Nonreciprocity and disorder resilience through phonon-photon interactions in microcavities", Proc. SPIE 11700, Optical and Quantum Sensing and Precision Metrology, 117002S (6 March 2021); https://doi.org/10.1117/12.2592510
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Gaurav Bahl, "Nonreciprocity and disorder resilience through phonon-photon interactions in microcavities," Proc. SPIE 11700, Optical and Quantum Sensing and Precision Metrology, 117002S (6 March 2021); https://doi.org/10.1117/12.2592510