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Optomechanically-Induced Transparency in partiy-time-symmetric microresonators

Optomechanically-induced transparency (OMIT) and the associated slowing of light provide the basis for storing photons in nanoscale devices. Here we study OMIT in parity-time (PT)-symmetric microresonators with a tunable gain-to-loss ratio. This system features a reversed, non-amplifying transparency, i.e., an inverted-OMIT. When the gain-to-loss ratio is varied, the system exhibits a transition from a PT-symmetric phase to a broken-PT-symmetric phase. This PT-phase transition results in the reversal of the pump and gain dependence of the transmission rates. Moreover, we show that by tuning the pump power at a fixed gain-to-loss ratio, or the gain-to-loss ratio at a fixed pump power, one can switch from slow to fast light and vice versa. These findings provide new tools for controlling light propagation using nanofabricated phononic devices.

preprint2015arXivOpen access
H. JingS. K. ÖzdemirZ. GengJ. ZhangX. -Y. LüB. PengL. YangF. Nori
physics.opticsquant-ph
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H. JingS. K. ÖzdemirZ. GengJ. ZhangX. -Y. LüB. PengL. YangF. Nori

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