Linearized Optomechanics Under Time-Dependent Phase Driving

被引:0
作者
Jaramillo Avila, B. [1 ]
Ventura-Velazquez, C. [2 ]
Rodriguez-Lara, B. M. [2 ,3 ]
机构
[1] CONACyT Inst Nacl Astrofis Opt & Elect, Calle Luis Enrique Erro 1 Sta Ma Tonantzintla, Puebla 72840, Mexico
[2] Inst Nacl Astrofis Opt & Electr, Calle Luis Enrique Erro 1 Sta Ma Tonantzintla, Puebla 72840, Mexico
[3] Tecnol Monterrey, Escuela Ingn & Ciencias, Ave Eugenio Garza Sada 2501, Monterrey 64849, NL, Mexico
来源
QUANTUM FEST 2019 INTERNATIONAL CONFERENCE ON QUANTUM PHENOMENA, QUANTUM CONTROL AND QUANTUM OPTICS | 2020年 / 1540卷
关键词
CAVITY OPTOMECHANICS; RADIATION PRESSURE; MICROWAVE; MIRROR;
D O I
10.1088/1742-6596/1540/1/012013
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
We study the effect of steepness in smooth phase changes in the laser that drives an optomechanical system in the red-detuned, linearized regime. These phase changes take the semi-classical component out of its steady state. Steeper phase changes produce larger amplitudes for the fast oscillations in the mean fields. In contrast, sufficiently slow phase changes keep the system close to its steady state and allow the implementation of a phase driving scheme designed to minimize the variation of the quantum fluctuation mean excitation values.
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页数:6
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共 31 条
[1]   Equivalence between an optomechanical system and a Kerr medium [J].
Aldana, Samuel ;
Bruder, Christoph ;
Nunnenkamp, Andreas .
PHYSICAL REVIEW A, 2013, 88 (04)
[2]   Ultralow-dissipation optomechanical resonators on a chip [J].
Anetsberger, G. ;
Riviere, R. ;
Schliesser, A. ;
Arcizet, O. ;
Kippenberg, T. J. .
NATURE PHOTONICS, 2008, 2 (10) :627-633
[3]  
Avila BJ, 2020, SCI REP-UK, V10, DOI 10.1038/s41598-020-58582-7
[4]   Nonreciprocity in Microwave Optomechanical Circuits [J].
Bernier, Nathan Rafael ;
Toth, Laszlo Daniel ;
Feofanov, Alexey K. ;
Kippenberg, Tobias J. .
IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS, 2018, 17 (11) :1983-1987
[5]   OPTICAL BISTABILITY AND MIRROR CONFINEMENT INDUCED BY RADIATION PRESSURE [J].
DORSEL, A ;
MCCULLEN, JD ;
MEYSTRE, P ;
VIGNES, E ;
WALTHER, H .
PHYSICAL REVIEW LETTERS, 1983, 51 (17) :1550-1553
[6]   INPUT AND OUTPUT IN DAMPED QUANTUM-SYSTEMS - QUANTUM STOCHASTIC DIFFERENTIAL-EQUATIONS AND THE MASTER EQUATION [J].
GARDINER, CW ;
COLLETT, MJ .
PHYSICAL REVIEW A, 1985, 31 (06) :3761-3774
[7]   Radiation pressure in finite Fabry-Perot cavities [J].
Grunwald, P. ;
Rodriguez-Lara, B. M. .
OSA CONTINUUM, 2019, 2 (01) :175-183
[8]   Optomechanically induced transparency in a membrane-in-the-middle setup at room temperature [J].
Karuza, M. ;
Biancofiore, C. ;
Bawaj, M. ;
Molinelli, C. ;
Galassi, M. ;
Natali, R. ;
Tombesi, P. ;
Di Giuseppe, G. ;
Vitali, D. .
PHYSICAL REVIEW A, 2013, 88 (01)
[9]   Cavity optomechanics: Back-action at the mesoscale [J].
Kippenberg, T. J. ;
Vahala, K. J. .
SCIENCE, 2008, 321 (5893) :1172-1176
[10]   INTERACTION BETWEEN A MOVING MIRROR AND RADIATION PRESSURE - A HAMILTONIAN-FORMULATION [J].
LAW, CK .
PHYSICAL REVIEW A, 1995, 51 (03) :2537-2541
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