Energy-efficient on-chip optical diode based on the optomechanical effect | Zendy

Huaqing Qiu | Zendy; Jianji Dong | Zendy; Li Liu | Zendy; Xinliang Zhang | Zendy

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Energy-efficient on-chip optical diode based on the optomechanical effect

Author(s) -

Huaqing Qiu,

Jianji Dong,

Li Liu,

Xinliang Zhang

Publication year - 2017

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.25.008975

Subject(s) - optics , resonator , bandwidth (computing) , diode , optical power , physics , optoelectronics , transmission (telecommunications) , energy (signal processing) , materials science , telecommunications , laser , computer science , quantum mechanics

We propose and experimentally demonstrate an energy-efficient optical diode based on the optomechanical effect. The optical signals could transmit during forward propagation while be blocked during backward propagation. When launching optical signal with a low power of 4.0 mW, the maximum resonance red-shift of the asymmetric silicon microring resonator (MRR) could be up to 0.74 nm, in this case, a forward-backward nonreciprocal transmission ratio (NTR) of 12.7 dB has been achieved. The 10-dB and 5-dB operation bandwidths are 0.08 nm and 0.24 nm, respectively. The operating bandwidth could be continuously tuned theoretically by changing the input power.

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