136 research outputs found
Reversible compression of an optical piston through Kramers dynamics
We study the reversible crossover between stable and bistable phases of an
over-damped Brownian bead inside an optical piston. The interaction potentials
are solved developing a method based on Kramers' theory that exploits the
statistical properties of the stochastic motion of the bead. We evaluate
precisely the energy balance of the crossover. We show that the deformation of
the optical potentials induced by the compression of the piston is related to a
production of heat which measures the non-adiabatic character of the crossover.
This reveals how specific thermodynamic processes can be designed and
controlled with a high level of precision by tailoring the optical landscapes
of the piston.Comment: 9 pages, 9 figure
The Casimir effect in the nanoworld
The Casimir effect is a force arising in the macroscopic world as a result of
radiation pressure of vacuum fluctuations. It thus plays a key role in the
emerging domain of nano-electro-mechanical systems (NEMS). This role is
reviewed in the present paper, with discussions of the influence of the
material properties of the mirrors, as well as the geometry dependence of the
Casimir effect between corrugated mirrors. In particular, the lateral component
of the Casimir force and restoring torque between metal plates with misaligned
corrugations are evaluated.Comment: 8 pages, 6 figures, contribution to CEWQO 2007 proceeding
The Casimir force between metallic mirrors
In order to compare recent experimental results with theoretical predictions
we study the influence of finite conductivity of metals on the Casimir effect.
The correction to the Casimir force and energy due to imperfect reflection and
finite temperature are evaluated for plane metallic plates where the dielectric
functions of the metals are modeled by a plasma model. The results are compared
with the common approximation where conductivity and thermal corrections are
evaluated separately and simply multiplied.Comment: 10 pages, 8 figures, contribution to MG9 proceeding
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