Nonequilibrium Tuning of the Thermal Casimir Effect

In net-neutral systems correlations between charge fluctuations generate strong attractive thermal Casimir forces and engineering these forces to optimize nanodevice performance is an important challenge. We show how the normal and lateral thermal Casimir forces between two plates containing Brownia...

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Bibliographic Details
Published in:Physical review letters 2016-06, Vol.116 (24), p.240602-240602, Article 240602
Main Authors: Dean, David S, Lu, Bing-Sui, Maggs, A C, Podgornik, Rudolf
Format: Article
Language:English
Subjects:
Charge (electric)
Condensed Matter
Constants
Density functional theory
Fluctuation
Mathematical analysis
Physics
Plates
Statistical Mechanics
Steady state
Tuning
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Summary:In net-neutral systems correlations between charge fluctuations generate strong attractive thermal Casimir forces and engineering these forces to optimize nanodevice performance is an important challenge. We show how the normal and lateral thermal Casimir forces between two plates containing Brownian charges can be modulated by decorrelating the system through the application of an electric field, which generates a nonequilibrium steady state with a constant current in one or both plates, reducing the ensuing fluctuation-generated normal force while at the same time generating a lateral drag force. This hypothesis is confirmed by detailed numerical simulations as well as an analytical approach based on stochastic density functional theory.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.116.240602