Realization of tunable microsphere resonators suspended in liquid via dielectrophoretic force

机译：通过介电泳力悬浮在液体中的可调谐微球谐振器的实现

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A new control mechanism to realize tunable microsphere resonators suspended in liquid is proposed. Via adjusting the bias voltage across an inhomogeneous dielectric structure (a rib waveguide plus microsphere), the microsphere resonator is attracted and levitated on top of the single-mode rib waveguide via an repulsive dielectrophoretic (DEP) force, where the coupling gap between the microsphere resonator and the waveguide is precisely controlled. The tunable gap spacing is analyzed by calculating the dielectrophoretic force through Maxwell stress tensor.

机译：提出了一种实现悬浮在液体中的可调谐微球谐振器的新控制机制。通过调节不均匀介电结构（肋形波导加微球）上的偏置电压，微球谐振器通过排斥介电（DEP）力吸引并悬浮在单模肋形波导的顶部，其中微球之间的耦合间隙谐振器和波导受到精确控制。通过利用麦克斯韦应力张量计算介电泳力来分析可调节的间隙间距。

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《International Symposium on Next-Generation Electronics》|2015年|1-3|共3页
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Te-Chang Chen; Tse-Jen Liao; Lee Ming-Chang M.;
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DEP; OET and WGM;

机译：DEP; OET和WGM;

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Realization of tunable microsphere resonators suspended in liquid via dielectrophoretic force

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