Moving boundary and photoelastic coupling in GaAs optomechanical resonators

Authors
Balram, Krishna C.Davanco, MarceloLim, Ju YoungSong, Jin DongSrinivasan, Kartik
Issue Date
2014-12-20
Publisher
OPTICAL SOC AMER
Citation
OPTICA, v.1, no.6, pp.414 - 420
Abstract
Chip-based cavity optomechanical systems are being considered for applications in sensing, metrology, and quantum information science. Critical to their development is an understanding of how the optical andmechanical modes interact, quantified by the coupling rate g(0). Here, we develop GaAs optomechanical resonators and investigate the moving dielectric boundary and photoelastic contributions to g(0). First, we consider coupling between the fundamental radial breathing mechanical mode and a 1550 nm band optical whispering gallery mode in microdisks. For decreasing disk radius from R = 5 to 1 mu m, simulations and measurements show that g(0) changes from being dominated by the moving boundary contribution to having an equal photoelastic contribution. Next, we design and demonstrate nanobeam optomechanical crystals, in which a 2.5 GHz mechanical breathing mode couples to a 1550 nm optical mode, predominantly through the photoelastic effect. We show a significant (30%) dependence of g(0) on the device's in-plane orientation, resulting from the difference in GaAs photoelastic coefficients along different crystalline axes, with fabricated devices exhibiting g(0)/2 pi as high as 1.1MHz, for orientation along the [110] axis. GaAs nanobeam optomechanical crystals are a promising system, which can combine the demonstrated large optomechanical coupling strength with additional functionality, such as piezoelectric actuation and incorporation of optical gain media. (C) 2014 Optical Society of America
Keywords
CRYSTAL CAVITY; WAVE-GUIDES; CRYSTAL CAVITY; WAVE-GUIDES; Microcavity devices; Nanophotonics and photonic crystals
ISSN
2334-2536
URI
https://pubs.kist.re.kr/handle/201004/125983
DOI
10.1364/OPTICA.1.000414
Appears in Collections:
KIST Article > 2014
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