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24 April 2018 Optical manipulation of vibration amplitude of electrostatically actuated cantilevered MoS2
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Proceedings Volume 10712, Optical Manipulation Conference; 107121U (2018) https://doi.org/10.1117/12.2319373
Event: SPIE Structured Light, 2018, Yokohama, Japan
Abstract
Transition metal dichalcogenide such as MoS2 is expected as high performance nano-electro-mechanical devices due to their unique electrical, optical and mechanical properties. One can expect that the combination of these properties are efficient to develop the novel functional devices. Here, we demonstrates the amplitude control of resonance characteristics of a cantilevered MoS2 on the planar substrate, which is actuated by electrostatically. The AC and DC bias voltage dependences of the vibration amplitudes are well explained by the simplified model under linear elastic regime. Moreover, we demonstrate the optical manipulation of the vibration amplitude at the resonance. Under the irradiation of strongly absorbed light by MoS2, the vibration amplitude is successfully manipulated by the laser intensity change.
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Daiki Yoshikawa, Yuga Miyamoto, Kuniharu Takei, Takayuki Arie, and Seiji Akita "Optical manipulation of vibration amplitude of electrostatically actuated cantilevered MoS2", Proc. SPIE 10712, Optical Manipulation Conference, 107121U (24 April 2018); https://doi.org/10.1117/12.2319373
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