Paper Info
Title
Dynamical behavior of optomechanical induced transparency in a silica microresonator
Abstract
In an optomechanical resonator, the optical and mechanical excitations can be coherent converted, which induces a transparency window for a weak probe laser beam. Here, we report an experimental study of transient optomechanical-induced transparency (OMIT) using the silica microcavity with breathing modes. We have also reported experimental studies on both OMIT and light storage under nearly the same conditions also illustrates the connections between these two closely related processes. As straightforward extension of the light storage process is to use a readout pulse that couples to a different optical mode. The resulting readout process enables optical wavelength or optical mode conversion.
Year
DOI
Venue
2014
10.1109/ICTON.2014.6876395
Transparent Optical Networks
Keywords
DocType
ISSN
transient optomechanical-induced transparency,silica microcavity,optical mode,self-induced transparency,readout pulse,micromechanical resonators,optical wavelength conversion,micro-optics,light storage,whispering gallery mode,transient omit behaviors,sio2,coupled-oscillator model,dynamical behavior,cavity optomechanics,microcavities,silicon compounds,optomechanically-induced transparency,transparency,breathing modes,optomechanical-induced transparency,silica microresonator,optical resonators
Conference
2162-7339
Citations 
PageRank 
References 
0
0.34
0
Authors
3
Name
Order
Citations
PageRank
Chunhua Dong100.34
Zhen Shen200.34
Guangcan Guo3229.33