Fluctuation of thermal van der Waals forces due to dipole fluctuations
PODGORNIK, Rudolf
Department of Physics
Department of Theoretical Physics
Department of Physics, Faculty of Mathematics and Physics
Department of Physics
Department of Theoretical Physics
Department of Physics, Faculty of Mathematics and Physics
PODGORNIK, Rudolf
Department of Physics
Department of Theoretical Physics
Department of Physics, Faculty of Mathematics and Physics
< Reduce
Department of Physics
Department of Theoretical Physics
Department of Physics, Faculty of Mathematics and Physics
Language
en
Article de revue
This item was published in
Physical Review A : Atomic, molecular, and optical physics [1990-2015]. 2013-03-19, vol. 87, n° 3, p. 032111 (1-5)
American Physical Society
English Abstract
Fluctuations of the thermal or classical component of the van der Waals force between two dielectric slabs, modelled as an ensemble of polarizable dipoles which interact via the usual electrostatic dipole-dipole interaction, ...Read more >
Fluctuations of the thermal or classical component of the van der Waals force between two dielectric slabs, modelled as an ensemble of polarizable dipoles which interact via the usual electrostatic dipole-dipole interaction, are evaluated. In the model the instantaneous force is a deterministic function of the dipole configurations in the slabs and its fluctuations are purely due to dipole fluctuations (no background thermal fluctuations of the electromagnetic field are considered). The average of the force and its variance are computed. The fluctuations of the force exhibit normal thermodynamic scaling in that they are proportional to the area of the two plates, and even more importantly, do not depend on any microscopic cut-off in the theory. The average and the variance of the thermal van der Waals forces give a unique fingerprint of these fluctuation interactions.Read less <
English Keywords
Quantum electrodynamics
Nonlinear dynamics and chaos
Polarization and depolarization
Origin
Hal imported