Generating nonclassical states of light by optomechanical coupling depends critically on the mechanical and optical properties of micro-oscillators and on the minimization of thermal noise. We present an oscillating micromirror with a mechanical quality factorQ=2.6×10 6 at cryogenic temperature and a finesse of 65 000, obtained thanks to an innovative approach to the design and the control of mechanical dissipation. We predict that, already at 4 K with an input laser power of 2 mW, the radiation-pressure quantum fluctuations become the main noise source, overcoming thermal noise. This feature makes our devices particularly suitable for the production of ponderomotive squeezing.
Ultralow dissipation micro-oscillator for quantum optomechanics / E. Serra; A. Borrielli; F. S. Cataliotti; F. Marin; F. Marino; A. Pontin; G. A. Prodi; M. Bonaldi. - In: PHYSICAL REVIEW A. - ISSN 1050-2947. - STAMPA. - 86:(2012), pp. 051801-1-051801-5. [10.1103/PhysRevA.86.051801]
Ultralow dissipation micro-oscillator for quantum optomechanics
CATALIOTTI, FRANCESCO SAVERIO;MARIN, FRANCESCO;
2012
Abstract
Generating nonclassical states of light by optomechanical coupling depends critically on the mechanical and optical properties of micro-oscillators and on the minimization of thermal noise. We present an oscillating micromirror with a mechanical quality factorQ=2.6×10 6 at cryogenic temperature and a finesse of 65 000, obtained thanks to an innovative approach to the design and the control of mechanical dissipation. We predict that, already at 4 K with an input laser power of 2 mW, the radiation-pressure quantum fluctuations become the main noise source, overcoming thermal noise. This feature makes our devices particularly suitable for the production of ponderomotive squeezing.File | Dimensione | Formato | |
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