| Literature DB >> 25679837 |
K Makles, T Antoni, A G Kuhn, S Deléglise, T Briant, P-F Cohadon, R Braive, G Beaudoin, L Pinard, C Michel, V Dolique, R Flaminio, G Cagnoli, I Robert-Philip, A Heidmann.
Abstract
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 μm and a finesse in the 200 range. It is used to probe the Brownian motion of the mechanical modes of the nanomembrane.Year: 2015 PMID: 25679837 DOI: 10.1364/OL.40.000174
Source DB: PubMed Journal: Opt Lett ISSN: 0146-9592 Impact factor: 3.776