5,953 research outputs found
Addendum: Behavior of a bipartite system in a cavity
This note is an Addendum to our previous article [Phys. Rev. A \textbf{81},
053820 (2010)]. We show that under the assumption of a Bose-Einstein
distribution for the thermal reservoir, zero-temperature properties of the
entangled states considered there are not changed by heating, for temperatures
up to the order of room temperatures. In this case, the system is dissipative
in free space and presents stability for a small cavity, both for T=0 and for
finite temperature.Comment: Revtex, 04 pages no figures, Version as accepted for publication in
Phys. Rev.
Behavior of a bipartite system in a cavity
We study the time evolution of a superposition of product states of two
dressed atoms in a spherical cavity in the situations of an arbitrarily large
cavity (free space) and of a small one. In the large-cavity case, the system
dissipates, whereas, for the small cavity, the system evolves in an oscillating
way and never completely decays. We verify that the von Neumann entropy for
such a system does not depend on time, nor on the size of the cavityComment: 9 pages 2 figures, Revtex, Version accepted to be published in
Physical Review
Magnetic effects on spontaneous symmetry breaking/restoration in a toroidal topology
We study temperature and finite-size effects on the spontaneous symmetry
breaking/restoration for a scalar field model under the influence of an
external magnetic field, at finite chemical potential. We use the 2PI formalism
and consider the large- limit. We find that there is a minimal size of the
system to sustain the broken phase, which diminishes as the applied field
increases but is independent of the chemical potential. We analyze the critical
curves and show that the magnetic field enhances the broken-phase regions,
while increasing the chemical potential leads to a diminishement of the
critical temperature.Comment: Five pages, five figures, version as accepted for publication in
Phys. Rev.
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