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Quantum Squeezing Induced Optical Nonreciprocity

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arxiv 2110.05016 v1 pith:WYP4VBVW submitted 2021-10-11 quant-ph

Quantum Squeezing Induced Optical Nonreciprocity

classification quant-ph
keywords nonreciprocalopticalresonatorachieveall-opticalquantumchiraldiode
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We propose an all-optical approach to achieve optical nonreciprocity on a chip by quantum squeezing one of two coupled resonator modes. By parametric pumping a nonlinear resonator unidirectionally with a classical coherent field, we squeeze the resonator mode in a selective direction due to the phase-matching condition, and induce a chiral photon interaction between two resonators. Based on this chiral interresonator coupling, we achieve an all-optical diode and a three-port quasi-circulator. By applying a second squeezed-vacuum field to the squeezed resonator mode, our nonreciprocal device also works for single-photon pulses. We obtain an isolation ratio of >40 dB for the diode and fidelity of $>98\%$ for the quasi-circulator, and insertion loss of <1 dB for both. We also show that nonreciprocal transmission of strong light can be switched on and off by a relative weak pump light. This achievement implies a nonreciprocal optical transistor. Our protocol opens up a new route to achieve integrable all-optical nonreciprocal devices permitting chip-compatible optical isolation and nonreciporcal quantum information processing.

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