Bipolar optical forces in coupled photonic crystal cavities

2013 International Conference on Optical MEMS and Nanophotonics (OMN) Pub Date : 2013-11-11 DOI:10.1109/OMN.2013.6659114
F. Tian, Guangya Zhou, Y. Du, F. Chau
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Abstract

Due to their high quality (Q) factors, resonance modes of cavities are capable of generating much larger optical gradient forces than waveguide modes. Here we experimentally demonstrate the use of resonance modes of double-coupled one-dimensional photonic crystal cavities to generate bipolar optical forces. Mechanical and thermal detunings of the probe resonance modes of the device are calibrated respectively with a nanoelectromechanical system (NEMS) actuator and a temperature-controlled testing platform. Detuning due to the optomechanical effect is hence decoupled from that of the thermo-optic effect. Pumped by third-order even (odd) mode, one cavity is pulled to (pushed away from) the other cavity by 37.1 nm (11.4 nm).
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耦合光子晶体腔中的双极光力
由于谐振腔的高质量(Q)因子,谐振腔能够产生比波导模式大得多的光学梯度力。在这里,我们实验证明了利用双耦合一维光子晶体腔的共振模式来产生双极光力。利用纳米机电系统(NEMS)致动器和温控测试平台分别对器件的探针共振模式进行了机械失谐和热失谐校准。因此,由光力学效应引起的失谐与热光效应的失谐是分离的。通过三阶偶(奇)模抽运,一个腔被拉到(推开)另一个腔37.1 nm (11.4 nm)。
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2013 International Conference on Optical MEMS and Nanophotonics (OMN)
2013 International Conference on Optical MEMS and Nanophotonics (OMN)
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