Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators
Optical information storage is essential for optical and quantum computation and communication, which can be implemented with various media including atoms, ions, and phonons. The main challenge lies in implementing a robust control to drastically slow down, store and transport ultrafast optical sig...
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sg-ntu-dr.10356-1444522020-11-06T01:35:44Z Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators Huang, Jianguo Chin, Lip Ket Cai, Hong Li, Huan Wu, Jiu Hui Chen, Tianning Li, Mo Liu, Ai-Qun School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Strong Coupling Optomechanics Optical information storage is essential for optical and quantum computation and communication, which can be implemented with various media including atoms, ions, and phonons. The main challenge lies in implementing a robust control to drastically slow down, store and transport ultrafast optical signals. Cavity optomechanics enable information storage by converting photons into acoustic phonons in mechanical resonators. However, fast and controllable effective coupling between multiple mechanical resonators remains elusive for dynamic phonon manipulation and information transfer. This study considers dynamic phonon manipulation via optomechanically induced strong coupling between two distinct mechanical resonators. When the two resonators within an optical cavity are excited to optomechanical self-oscillation, strong coupling is observed when a parametric pump laser compensates for their mechanical frequency mismatch. The strong and controllable coupling between the mechanical resonators demonstrated on the fully integrated nanoscale optomechanical device is promising for dynamic phonon manipulation and robust optical information storage. National Research Foundation (NRF) This work was supported by the Singapore National Research Foundation under the Incentive for Research and Innovation Scheme (1102-IRIS-05-01), administered by PUB and under the Competitive Research Program (NRF-CRP13-2014-01). This work was also supported by Centre for Bio Devices and Signal Analysis (VALENS) and Centre for OptoElectronics and Biophotonics (OPTIMUS) of Nanyang Technology University. 2020-11-06T01:34:19Z 2020-11-06T01:34:19Z 2019 Journal Article Huang, J., Chin, L. K., Cai, H., Li, H., Wu, J. H., Chen, T., . . . Liu, A.-Q. (2019). Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators. ACS Photonics, 6(8), 1855-1862. doi:10.1021/acsphotonics.9b00618 2330-4022 https://hdl.handle.net/10356/144452 10.1021/acsphotonics.9b00618 2-s2.0-85072010380 8 6 1855 1862 en ACS Photonics © 2019 American Chemical Society. All rights reserved. |
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Engineering::Electrical and electronic engineering Strong Coupling Optomechanics Huang, Jianguo Chin, Lip Ket Cai, Hong Li, Huan Wu, Jiu Hui Chen, Tianning Li, Mo Liu, Ai-Qun Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators |
| description |
Optical information storage is essential for optical and quantum computation and communication, which can be implemented with various media including atoms, ions, and phonons. The main challenge lies in implementing a robust control to drastically slow down, store and transport ultrafast optical signals. Cavity optomechanics enable information storage by converting photons into acoustic phonons in mechanical resonators. However, fast and controllable effective coupling between multiple mechanical resonators remains elusive for dynamic phonon manipulation and information transfer. This study considers dynamic phonon manipulation via optomechanically induced strong coupling between two distinct mechanical resonators. When the two resonators within an optical cavity are excited to optomechanical self-oscillation, strong coupling is observed when a parametric pump laser compensates for their mechanical frequency mismatch. The strong and controllable coupling between the mechanical resonators demonstrated on the fully integrated nanoscale optomechanical device is promising for dynamic phonon manipulation and robust optical information storage. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Huang, Jianguo Chin, Lip Ket Cai, Hong Li, Huan Wu, Jiu Hui Chen, Tianning Li, Mo Liu, Ai-Qun |
| format |
Article |
| author |
Huang, Jianguo Chin, Lip Ket Cai, Hong Li, Huan Wu, Jiu Hui Chen, Tianning Li, Mo Liu, Ai-Qun |
| author_sort |
Huang, Jianguo |
| title |
Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators |
| title_short |
Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators |
| title_full |
Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators |
| title_fullStr |
Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators |
| title_full_unstemmed |
Dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators |
| title_sort |
dynamic phonon manipulation by optomechanically induced strong coupling between two distinct mechanical resonators |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144452 |
| _version_ |
1688665501083893760 |