2D photonic-crystal optomechanical nanoresonator

被引:22
|
作者
Makles, K. [1 ]
Antoni, T. [2 ]
Kuhn, A. G. [1 ]
Deleglise, S. [1 ]
Briant, T. [1 ]
Cohadon, P. -F. [1 ]
Braive, R. [3 ]
Beaudoin, G. [3 ]
Pinard, L. [4 ]
Michel, C. [4 ]
Dolique, V. [4 ]
Flaminio, R. [4 ]
Cagnoli, G. [4 ]
Robert-Philip, I. [3 ]
Heidmann, A. [1 ]
机构
[1] Sorbonne Univ UPMC, Lab Kastler Brossel, ENS, CNRS,Coll France, Paris, France
[2] CNRS, Ecole Cent Paris, Lab Photon Quant & Mol, F-75700 Paris, France
[3] Lab Photon & Nanostruct LPN CNRS, Marcoussis, France
[4] IN2P3, CNRS, Lab Mat Avances, Villeurbanne, France
来源
OPTICS LETTERS | 2015年 / 40卷 / 02期
关键词
RADIATION-PRESSURE; CAVITY; LIGHT; PHYSICS;
D O I
10.1364/OL.40.000174
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
We present the optical optimization of an optomechanical device based on a suspended InP membrane patterned with a 2D near-wavelength grating (NWG) based on a 2D photonic-crystal geometry. We first identify by numerical simulation a set of geometrical parameters providing a reflectivity higher than 99.8% over a 50-nm span. We then study the limitations induced by the finite value of the optical waist and lateral size of the NWG pattern using different numerical approaches. The NWG grating, pierced in a suspended InP 265-nm thick membrane, is used to form a compact microcavity involving the suspended nanomembrane as an end mirror. The resulting cavity has a waist size smaller than 10 mu m and a finesse in the 200 range. It is used to probe the Brownian motion of the mechanical modes of the nanomembrane. (C) 2015 Optical Society of America
引用
收藏
页码:174 / 177
页数:4
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