Designing evanescent optical interactions to control the expression of Casimir forces in optomechanical structures

We propose an optomechanical structure consisting of a photonic-crystal (holey) membrane suspended above a layered silicon-on-insulator substrate in which resonant bonding/antibonding optical forces created by externally incident light from above enable all-optical control and actuation of stiction...

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Veröffentlicht in:	Applied physics letters 2011-05, Vol.98 (19)
Hauptverfasser:	Rodriguez, Alejandro W., Woolf, David, Hui, Pui-Chuen, Iwase, Eiji, McCauley, Alexander P., Capasso, Federico, Loncar, Marko, Johnson, Steven G.
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container_title	Applied physics letters
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creator	Rodriguez, Alejandro W. Woolf, David Hui, Pui-Chuen Iwase, Eiji McCauley, Alexander P. Capasso, Federico Loncar, Marko Johnson, Steven G.
description	We propose an optomechanical structure consisting of a photonic-crystal (holey) membrane suspended above a layered silicon-on-insulator substrate in which resonant bonding/antibonding optical forces created by externally incident light from above enable all-optical control and actuation of stiction effects induced by the Casimir force. In this way, one can control how the Casimir force is expressed in the mechanical dynamics of the membrane, not by changing the Casimir force directly but by optically modifying the geometry and counteracting the mechanical spring constant to bring the system in or out of regimes where Casimir physics dominate. The same optical response (reflection spectrum) of the membrane to the incident light can be exploited to accurately measure the effects of the Casimir force on the equilibrium separation of the membrane.
doi_str_mv	10.1063/1.3589119
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title	Designing evanescent optical interactions to control the expression of Casimir forces in optomechanical structures
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