Publikation: Persistent Response in an Ultrastrongly Driven Mechanical Membrane Resonator
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2020
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European Union (EU): 732894
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H2020 FET PROACTIVE Hybrid Optomechanical Technologies (HOT)
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Core Facility der Universität Konstanz
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Physical Review Letters. American Physical Society (APS). 2020, 127(1), 014304. ISSN 0031-9007. eISSN 1079-7114. Available under: doi: 10.1103/PhysRevLett.127.014304
Zusammenfassung
We study experimentally and theoretically the phenomenon of persistent response in ultra-strongly driven membrane resonators. This term denotes the development of a vibrating state with nearly constant amplitude over an extreme wide frequency range. We reveal the underlying mechanism of the persistent response state by directly imaging the vibrational state using advanced optical interferometry. We argue that the persistent state is related to the nonlinear interaction between higher order flexural modes and higher-order overtones of the driven mode. Finally, we propose a stability diagram for the different vibrational states that the membrane can adopt.
Zusammenfassung in einer weiteren Sprache
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530 Physik
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persistent response, ultrastrongly driven membrane resonators, vibrating state
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YANG, Fan, Felicitas HELLBACH, Felix ROCHAU, Wolfgang BELZIG, Eva M. WEIG, Gianluca RASTELLI, Elke SCHEER, 2020. Persistent Response in an Ultrastrongly Driven Mechanical Membrane Resonator. In: Physical Review Letters. American Physical Society (APS). 2020, 127(1), 014304. ISSN 0031-9007. eISSN 1079-7114. Available under: doi: 10.1103/PhysRevLett.127.014304BibTex
@article{Yang2020-03-30T00:19:42ZPersi-54190,
year={2020},
doi={10.1103/PhysRevLett.127.014304},
title={Persistent Response in an Ultrastrongly Driven Mechanical Membrane Resonator},
number={1},
volume={127},
issn={0031-9007},
journal={Physical Review Letters},
author={Yang, Fan and Hellbach, Felicitas and Rochau, Felix and Belzig, Wolfgang and Weig, Eva M. and Rastelli, Gianluca and Scheer, Elke},
note={Article Number: 014304}
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<dcterms:abstract xml:lang="eng">We study experimentally and theoretically the phenomenon of persistent response in ultra-strongly driven membrane resonators. This term denotes the development of a vibrating state with nearly constant amplitude over an extreme wide frequency range. We reveal the underlying mechanism of the persistent response state by directly imaging the vibrational state using advanced optical interferometry. We argue that the persistent state is related to the nonlinear interaction between higher order flexural modes and higher-order overtones of the driven mode. Finally, we propose a stability diagram for the different vibrational states that the membrane can adopt.</dcterms:abstract>
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