F. Pascoal scite author profile

We discuss the Casimir effect for a massive bosonic field with mixed (Dirichlet-Neumann) boundary conditions. We use the ζ-function regularization prescription to obtain our physical results. Particularly, we analyse how the Casimir energy varies with the mass of the field and compare this mass dependence with those obtained for other boundary conditions. This is done graphically. Some other graphs involving a massive fermionic field are also included.

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Dynamical Casimir effect for a massless scalar field between two concentric spherical shells

Pascoal

Céleri

Mizrahi

et al. 2008

Phys. Rev. A

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In this work we consider the dynamical Casimir effect for a massless scalar field -under Dirichlet boundary conditions -between two concentric spherical shells. We obtain a general expression for the average number of particle creation, for an arbitrary law of radial motion of the spherical shells, using two distinct methods: by computing the density operator of the system and by calculating the Bogoliubov coefficients. We apply our general expression to breathing modes: when only one of the shells oscillates and when both shells oscillate in or out of phase. Since our results were obtained in the framework of the perturbation theory, under resonant breathing modes they are restricted to a short-time approximation. We also analyze the number of particle production and compare it with the results for the case of plane geometry.

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Number of particle creation and decoherence in the nonideal dynamical Casimir effect at finite temperature

et al. 2009

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In this work we investigate the dynamical Casimir effect in a nonideal cavity by deriving an effective Hamiltonian. We first compute a general expression for the average number of particle creation, applicable for any law of motion of the cavity boundary. We also compute a general expression for the linear entropy of an arbitrary state prepared in a selected mode, also applicable for any law of motion of the cavity boundary. As an application of our results we have analyzed both the average number of particle creation and linear entropy within a particular oscillatory motion of the cavity boundary. On the basis of these expressions we develop a comprehensive analysis of the resonances in the number of particle creation in the nonideal dynamical Casimir effect. We also demonstrate the occurrence of resonances in the loss of purity of the initial state and estimate the decoherence times associated with these resonances.

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Action of the gravitational field on the dynamical Casimir effect

Céleri

Pascoal

Moussa

2009

Class. Quantum Grav.

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In this paper we analyze the action of the gravitational field on the dynamical Casimir effect.We consider a massless scalar field confined in a cuboid cavity placed in a gravitational field described by a static and diagonal metric. With one of the plane mirrors of the cavity allowed to move, we compute the average number of particles created inside the cavity by means of the Bogoliubov coefficients computed through perturbative expansions. We apply our result to the case of an oscillatory motion of the mirror, assuming a weak gravitational field described by the Schwarzschild metric. The regime of parametric amplification is analyzed in detail, demonstrating that our computed result for the mean number of particles created agrees with specific associated cases in the literature. Our results, obtained in the framework of the perturbation theory, are restricted, under resonant conditions, to a short-time limit.

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F. Pascoal

Estimate for the size of the compactification radius of a one extra dimension universe

Casimir effect for a massive scalar field under mixed boundary conditions

Dynamical Casimir effect for a massless scalar field between two concentric spherical shells

Number of particle creation and decoherence in the nonideal dynamical Casimir effect at finite temperature

Action of the gravitational field on the dynamical Casimir effect

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