161 research outputs found
Micromaser line broadening without photon exchange
We perform a calculation of the linewidth of a micromaser, using the master
equation and the quantum regression approach. A `dephasing' contribution is
identified from pumping processes that conserve the photon number and do not
appear in the photon statistics. We work out examples for a single-atom maser
with a precisely controlled coupling and for a laser where the interaction time
is broadly distributed. In the latter case, we also assess the convergence of a
recently developed uniform Lindblad approximation to the master equation; it is
relatively slow.Comment: 8 pages, proceedings of Central European Workshop on Quantum Optics
(Palermo Jun 07
Heating of trapped atoms near thermal surfaces
We study the electromagnetic coupling and concomitant heating of a particle
in a miniaturized trap close to a solid surface. Two dominant heating
mechanisms are identified: proximity fields generated by thermally excited
currents in the absorbing solid and time-dependent image potentials due to
elastic surface distortions (Rayleigh phonons). Estimates for the lifetime of
the trap ground state are given. Ions are particularly sensitive to electric
proximity fields: for a silver substrate, we find a lifetime below one second
at distances closer than some ten micrometer to the surface. Neutral atoms may
approach the surface more closely: if they have a magnetic moment, a minimum
distance of one micrometer is estimated in tight traps, the heat being
transferred via magnetic proximity fields. For spinless atoms, heat is
transferred by inelastic scattering of virtual photons off surface phonons. The
corresponding lifetime, however, is estimated to be extremely long compared to
the timescale of typical experiments.Comment: to be published in Europhys. Lett. (7 pages, 3 figures, includes
europhys.sty style file
Mode contributions to the Casimir effect
Applying a sum-over-modes approach to the Casimir interaction between two
plates with finite conductivity, we isolate and study the contributions of
surface plasmons and Foucault (eddy current) modes. We show in particular that
for the TE-polarization eddy currents provide a repulsive force that cancels,
at high temperatures, the Casimir free energy calculated with the plasma model.Comment: 5 pages, 1 figure, proceedings of conference "Quantum field theory
under the influence of external boundary conditions" (QFExt, Oklahoma,
September 2009
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