回音壁腔光机械系统中的动力学行为

doi:10.3969/j.issn.1007-2985.2012.02.011

journal6 ›› 2012, Vol. 33 ›› Issue (2): 45-49.DOI: 10.3969/j.issn.1007-2985.2012.02.011

回音壁腔光机械系统中的动力学行为

（吉首大学物理与机电工程学院，湖南吉首 416000）

出版日期:2012-03-25 发布日期:2012-05-28
通讯作者: 邬云文（1965-），女，湖南龙山人，吉首大学物理与机电工程学院教授，主要从事量子光学研究.
作者简介:李小娟（1986-），女，湖南衡阳人，吉首大学物理与机电工程学院硕士生，主要从事量子光学研究
基金资助:
湖南省科技计划资助项目（2010FJ3081）；湖南省自然科学基金资助项目（11JJ3003）

Dynamical Behavior of Whispering-Gallery Cavity Optomechanical System

(College of Physics and Mechatronic Engineering,Jishou University,Jishou 416000,Hunan China)

Online:2012-03-25 Published:2012-05-28

摘要/Abstract

摘要：研究了在控制和探测激光存在时回音壁腔光机械系统中的动力学行为，分析了系统中产生类似于原子电磁诱导透明与吸收的原因，论证了此系统的输出场在探测频率下存在类似于电磁诱导透明和电磁诱导吸收的现象，并证实了回音壁光机械腔系统与Λ原子系统中的泵浦探测响应特性相类似.此外，利用泵浦失谐控制光机械系统中类似于电磁诱导透明和电磁诱导吸收之间的转换，此系统中光机械诱导透明与吸收的论证为量子信息的处理提供了理论依据.

关键词： 回音壁光机械腔, 光机械诱导透明, 光机械诱导吸收, 量子信息

Abstract: The dynamical behavior of whispering-gallery cavity optomechanical system under the action of a controlling laser and a probe laser is investigated.The origin of electromagnetically induced transparency (EIT) -like dips is analyzed.The existence of the analog of EIT and electromagnetically induced absorption (EIA) in the output field at the probe frequency in this optomechanical system is demonstrated.The pump-probe response for the whispering-gallery mode (WGM) shares the features of the Λ system in atoms.What’s more,the switching between the EIT and EIA is dominated by the pump detune.The demonstration of EIT in this optomechanical system provides a theoretical basis for the quantum information processing.

Key words: whispering-gallery modes optomechanical cavity, optomechanically induced transparency, optomechanically induced absorption, quantum information

李小娟, 邬云文, 彭俊. 回音壁腔光机械系统中的动力学行为[J]. journal6, 2012, 33(2): 45-49.

LI Xiao-Juan, WU Yun-Wen, PENG Jun. Dynamical Behavior of Whispering-Gallery Cavity Optomechanical System[J]. journal6, 2012, 33(2): 45-49.

参考文献

[1] KIPPENBERG T J,VAHALA K J.Cavity Optomechanics:Back-Action at the Mesoscale [J].Science,2008,321(5 893):1 172-1 176.

[2] ASPELMEYER M,GROBLACHER S,HAMMERER K,et al.Quantum Optomechanics-Throwing a Glance [J].J.〖KG*2〗Opt. Soc. Am. B,2010,27(6):A189-A197.

[3] GIGAN S,BHM H R,PATERNOSTRO M,et al.Self-Cooling of a Micro-Mirror by Radiation Pressure [J].Nature,〖KG*2〗2006,444:67-70.

[4] SCHLIESSER A,DEL’HAYE P,NOOSHI N,et al.Radiation Pressure Cooling of a Micromechanical Oscillator Using 〖KG*2〗Dynamical Backaction [J].Phys. Rev. Lett.,2006,97(24):243 905-243 908.

[5] SCHWAB K C,ROUKES M L.Putting Mechanics into Quantum Mechanics [J].Physics Today,2005,58(7):36-42.

[6] LEGGETT J A.Testing the Limits of Quantum Mechanics:Motivation,State of Play,Prospects [J].J. Phys. Con-〖KG*2〗dens. Matter,2002,14(15):R415-R451.

[7] MARSHALL W,SIMON C,PENROSE R,et al.Towards Quantum Superpositions of a Mirror [J].Phys. Rev. Lett.,〖KG*2〗2003,91(13):130 401-130 404.

[8] CHANG D E,SAFAVI-NAEINI A H,HAFEZI M,et al.Slowing and Stopping Light Using an Optomechanical Crys-〖KG*2〗tal Array [J].New J. Phys.,2011,13(2):023 003-023 030.

[9] ZHANG Jing,PENG Kun-chi,BRAUNSTEIN S L.Quantum-State Transfer from Light to Macroscopic Oscillators [J].Phys. Rev. A,2003,68(1):013 808-013 812.

[10] TIAN L,WANG Hai-lin.Optical Wavelength Conversion of Quantum States with Optomechanics [J].Phys. Rev. A,2010,82(5):053 806-053 810.

[11] SAFAVI-NAEINI A H,PAINTER O.Proposal for an Optomechanical Traveling Wave Phonon-Phonon Translator [J].New J. Phys.,2011,13(1):013 017-013 048.

[12] HAU L V,HARRIS S E,DUTTON Z,et al.Light Speed Reduction to 17 Metres Per Second in an Ultracold Atomic Gas [J].Nature,1999,397:594-598.

[13] HARRIS S E,FIELD J E,KASAPI A.Dispersive Properties of Electromagnetically Induced Transparency [J].Phys. Rev. A,1992,46(1):R29-R32.

[14] KASH M M,SAUTENKOV V A,ZIBROV A S,et al.Ultraslow Group Velocity and Enhanced Nonlinear Optical Effects in a Coherently Driven Hot Atomic Gas [J].Phys. Rev. Lett.,1999,82(26):5 229-5 232.

[15] WEIS S,RIVIèRE R,DELéGLISE S,et al.Optomechanically Induced Transparency [J].Science,2010,330(6 010):1 520-1 523.

[16] AGARWAL G S,HUANG S M.Electromagnetically Induced Transparency in Mechanical Effects of Light [J].Phys. Rev. A,2010,81(4):041 803(R)-041 806(R).

[17] STANNIGEL K,RABL P,SORENSEN A S,et al.Optomechanical Transducers for Quantum Information Processing [J].Phys. Rev. A,2011,84(4):042 341-042 363.

[18] SCHLIESSER A,KIPPENBERG T J.Cavity Optomechanics with Whispering-Gallery Mode Optical Micro-Resonators [J].Advances in Atomic,Molecular and Optical Physics,2010,58:207-323.

[19] CHEN Bin,JIANG Cheng,ZHU Ka-di.Slow Light in a Cavity Optomechanical System with a Bose-Einstein Condensate [J].Phys. Rev. A,2011,83(5):055 803-055 806.

[20] SAFAVI-NAEINI A H,MAYER ALEGRE T P,CHAN J,et al.Electromagnetically Induced Transparency and Slow Light with Optomechanics [J].Nature,2011,472:69-73.

[21] XU Qian-fan,SANDHU S,MICHELLE L.POVINELLI,et al.Experimental Realization of an On-Chip All-Optical Analogue to Electromagnetically Induced Transparency [J].Phys. Rev. Lett.,2009,96(12):123 901-123 904.

[22] LAW C K.Interaction Between a Moving Mirror and Radiation Pressure:A Hamiltonian Formulation [J].Phys. Rev. A,1995,51(3):2 537-2 541.

[23] BOSE S,JACOBS K,KNIGHT P L.Preparation of Nonclassical States in Cavities with a Moving Mirror [J].Phys. Rev. A,1997,56(5):4 175-4 186.

[24] WALLS D F,MILBURN G J.Quantum Optics [M].Berlin:Springer-Verlag,1994:127-140.

回音壁腔光机械系统中的动力学行为

Dynamical Behavior of Whispering-Gallery Cavity Optomechanical System

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