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On-chip optical pulse train generation through the optomechanical oscillation

On-chip optical pulse train generation through the optomechanical oscillation
On-chip optical pulse train generation through the optomechanical oscillation
This paper proposes a novel on-chip optical pulse train generator (OPTG) based on optomechanical oscillation (OMO). The OPTG consists of an optical cavity and mechanical resonator, in which OMO periodically modulates the optical cavity field and consequently generates optical pulse trains. The dimensionless method are introduced to simulate the OMObased OPTG with reduced analysis complexity. We investigate the optomechanical coupling and the dynamic back-action processes, by which we found a dead zone that forbids the OMO, and derived the optimal laser detuning and the minimum threshold power. We analysed the OMO-based OPTG in terms of the pulse shape distortion, extinction ratio (ER) and duty-cycle (DC). Increasing input power, mechanical and optical Q-factors will increase ER, reduce DC and produce sharper and shorter optical pulses. We also discuss the design guidance of OMO-based OPTG and explore its application in distributed fibre optical sensor (DFOS).
1094-4087
38781-38795
Xu, Xiangming
4e94142c-c4ed-4d05-8c49-49edab3d0251
Pi, Hailong
32718fa6-ab51-4d28-b147-ce16a3235ac7
Yu, Wangke
c5688b04-647c-4189-a3b0-ac87aa883bbf
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Xu, Xiangming
4e94142c-c4ed-4d05-8c49-49edab3d0251
Pi, Hailong
32718fa6-ab51-4d28-b147-ce16a3235ac7
Yu, Wangke
c5688b04-647c-4189-a3b0-ac87aa883bbf
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828

Xu, Xiangming, Pi, Hailong, Yu, Wangke and Yan, Jize (2021) On-chip optical pulse train generation through the optomechanical oscillation. Optics Express, 29 (23), 38781-38795. (doi:10.1364/OE.431955).

Record type: Article

Abstract

This paper proposes a novel on-chip optical pulse train generator (OPTG) based on optomechanical oscillation (OMO). The OPTG consists of an optical cavity and mechanical resonator, in which OMO periodically modulates the optical cavity field and consequently generates optical pulse trains. The dimensionless method are introduced to simulate the OMObased OPTG with reduced analysis complexity. We investigate the optomechanical coupling and the dynamic back-action processes, by which we found a dead zone that forbids the OMO, and derived the optimal laser detuning and the minimum threshold power. We analysed the OMO-based OPTG in terms of the pulse shape distortion, extinction ratio (ER) and duty-cycle (DC). Increasing input power, mechanical and optical Q-factors will increase ER, reduce DC and produce sharper and shorter optical pulses. We also discuss the design guidance of OMO-based OPTG and explore its application in distributed fibre optical sensor (DFOS).

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Accepted/In Press date: 22 September 2021
Published date: 5 November 2021
Learn more about School of Electronics and Computer Science research Learn more about Smart Electronic Materials and Systems research

Identifiers

Local EPrints ID: 452975
URI: http://eprints.soton.ac.uk/id/eprint/452975
DOI: doi:10.1364/OE.431955
ISSN: 1094-4087
PURE UUID: 47abe809-4b82-4230-ba73-e742f4d88386
ORCID for Jize Yan: ORCID iD orcid.org/0000-0002-2886-2847

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Date deposited: 07 Jan 2022 12:05
Last modified: 17 Mar 2024 03:39

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Contributors

Author: Xiangming Xu
Author: Hailong Pi
Author: Wangke Yu
Author: Jize Yan ORCID iD

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