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Graphene-on-dielectric micromembrane for optoelectromechanical hybrid devices

Authors
Publisher
Cornell University Library
Publication Date
Keywords
  • Due To Their Exceptional Mechanical And Optical Properties
  • Dielectric Silicon Nitride (Sin) Micromembranes Have Become The Centerpiece Of Many Optomechanical E
  • Efficient Capacitive Coupling Of The Membrane To An Electrical System Would Facilitate Exciting Hybr
  • However
  • Capacitive Coupling Of Such Sin Membranes Is Rather Weak
  • Here We Add A Single Layer Of Graphene On Sin Micromembranes (Sin-G) And Compare The Electromechanic
  • The Electrostatic Force To External Coplanar Electrodes Of Sin-G Membranes Is Found To Be Equal To T
  • Our Results Show That A Single Layer Of Graphene Substantially Enhances The Electromechanical Capaci
  • Decreasing The Mechanical Quality Factor Or Affecting The Optical Properties

Abstract

Graphene-on-dielectric micromembrane for optoelectromechanical hybrid devices - DTU Orbit (25/04/14) Graphene-on-dielectric micromembrane for optoelectromechanical hybrid devices - DTU Orbit (25/04/14) Schmid, S, Bagci, T, Zeuthen, E, Taylor, JM, Herring, PK, Cassidy, MC, Marcus, CM, Villanueva Torrijo, LG, Amato, B, Boisen, A, Shin, YC, Kong, J, Sørensen, AS, Usami, K & Polzik, ES 2013, 'Graphene-on-dielectric micromembrane for optoelectromechanical hybrid devices' arXiv.org, e-Print Archive, Condensed Matter.

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