Chiral photon blockade in the spinning Kerr resonator

Chiral photon blockade in the spinning Kerr resonator

We propose how to achieve chiral photon blockade by spinning a nonlinear optical resonator. We show that by driving such a device at a fixed direction, completely different quantum effects can emerge for the counter-propagating optical modes, due to the spinning-induced breaking of time-reversal sym...

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Veröffentlicht in:Optics express 2024-06, Vol.32 (12), p.22020-22030
Hauptverfasser: Zuo, Yunlan, Jiao, Ya-Feng, Xu, Xun-Wei, Miranowicz, Adam, Kuang, Le-Man, Jing, Hui
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container_end_page 22030
container_issue 12
container_start_page 22020
container_title Optics express
container_volume 32
creator Zuo, Yunlan
Jiao, Ya-Feng
Xu, Xun-Wei
Miranowicz, Adam
Kuang, Le-Man
Jing, Hui
description We propose how to achieve chiral photon blockade by spinning a nonlinear optical resonator. We show that by driving such a device at a fixed direction, completely different quantum effects can emerge for the counter-propagating optical modes, due to the spinning-induced breaking of time-reversal symmetry, which otherwise is unattainable for the same device in the static regime. Also, we find that in comparison with the static case, robust non-classical correlations against random backscattering losses can be achieved for such a quantum chiral system. Our work, extending previous works on the spontaneous breaking of optical chiral symmetry from the classical to purely quantum regimes, can stimulate more efforts towards making and utilizing various chiral quantum effects, including applications for chiral quantum networks or noise-tolerant quantum sensors.
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title Chiral photon blockade in the spinning Kerr resonator
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