From Rindler space to the electromagnetic energy-momentum tensor of a Casimir apparatus in a weak gravitational field

Bimonte, Giuseppe; Esposito, Giampiero; Rosa, Luigi

doi:10.1103/physrevd.78.024010

Cited by 29 publications

(31 citation statements)

References 24 publications

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“…The formula for the push has been obtained in three different ways, i.e. a heuristic summation over modes [16,17], or a variational approach [7,8], or an energy-momentum analysis [9,15]. Moreover, the work in Ref.…”

Section: Discussionmentioning

confidence: 99%

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Relativistic mechanics of Casimir apparatuses in a weak gravitational field

et al. 2007

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This paper derives a set of general relativistic Cardinal Equations for the equilibrium of an extended body in a uniform gravitational field. These equations are essential for a proper understanding of the mechanics of suspended relativistic systems. As an example, the prototypical case of a suspended vessel filled with radiation is discussed. The mechanics of Casimir apparatuses at rest in the gravitational field of the Earth is then considered. Starting from an expression for the Casimir energy-momentum tensor in a weak gravitational field recently derived by the authors, it is here shown that, in the case of a rigid cavity supported by a stiff mount, the weight of the Casimir energy EC stored in the cavity corresponds to a gravitational mass M = EC /c 2 , in agreement with the covariant conservation law of the regularized energy-momentum tensor. The case of a cavity consisting of two disconnected plates supported by separate mounts, where the two measured forces cannot be obtained by straightforward arguments, is also discussed.

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Section: Discussionmentioning

confidence: 99%

“…The work in Ref. [15] has instead exploited the fact that, to first order in the small quantity gz, the line element (1.1) coincides with the Rindler metric…”

Section: Electromagnetic Fieldmentioning

confidence: 99%

Relativistic mechanics of Casimir apparatuses in a weak gravitational field

et al. 2007

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“…The ARCHIMEDES experiment [1] is designed for testing whether the energy of vacuum fluctuations, foreseen by quantum electrodynamics, contributes to gravity, through the coupling demanded by quantum field theory in curved spacetime [2][3][4][5], where the Einstein tensor is taken to be proportional to the expectation value of the regularized and renormalized energy-momentum tensor of matter fields. The idea is to weigh the vacuum energy stored in a rigid Casimir cavity made by parallel conducting plates, by modulating the reflectivity of the plates upon inducing a transition from the metallic to the superconducting phase [1].…”

Section: Introductionmentioning

confidence: 99%

Casimir energy for two and three superconducting coupled cavities: Numerical calculations

Rosa

Avino²,

Calloni

et al. 2017

Eur. Phys. J. Plus

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In this paper we study the behavior of the Casimir energy of a "multi-cavity" across the transition from the metallic to the superconducting phase of the constituting plates. Our analysis is carried out in the framework of the ARCHIMEDES experiment, aiming at measuring the interaction of the electromagnetic vacuum energy with a gravitational field. For this purpose it is foreseen to modulate the Casimir energy of a layered structure composing a multi-cavity coupled system by inducing a transition from the metallic to the superconducting phase. This implies a thorough study of the behavior of the cavity, where normal metallic layers are alternated with superconducting layers, across the transition. Our study finds that, because of the coupling between the cavities, mainly mediated by the transverse magnetic modes of the radiation field, the variation of energy across the transition can be very large. PACS numbers: 12.20.Ds, 74.78.Fk

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“…Quantum field theory in curved spacetime, although far from being a definitive theory unifying the quantum theories with gravitation, offers nevertheless some intriguing results, such as the well-known Hawking radiation [1] and the closely related Unruh effect [2]. Moreover, in the recent literature, a number of papers studying the influence of a gravitational field on the energy stored in a Casimir cavity appeared [3,4,5,6], in particular nowadays the theoretical prediction that the vacuum fluctuations follow the equivalence principle seems to be demonstrated [4,5,7,8].…”

Section: Introductionmentioning

confidence: 99%

Energy-momentum tensor for a scalar Casimir apparatus in a weak gravitational field: Neumann conditions

2008

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We consider a Casimir apparatus consisting of two perfectly conducting parallel plates, subject to the weak gravitational field of the Earth. The aim of this paper is the calculation of the energymomentum tensor of this system for a free, real massless scalar field satisfying Neumann boundary conditions on the plates. The small gravity acceleration (here considered as not varying between the two plates) allows us to perform all calculations to first order in this parameter. Some interesting results are found: a correction, depending on the gravity acceleration, to the well-known Casimir energy and pressure on the plates. Moreover, this scheme predicts a tiny force in the upwards direction acting on the apparatus. These results are supported by two consistency checks: the covariant conservation of the energy-momentum tensor and the vanishing of its regularized trace, when the scalar field is conformally coupled to gravity.

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From Rindler space to the electromagnetic energy-momentum tensor of a Casimir apparatus in a weak gravitational field

Cited by 29 publications

References 24 publications

Relativistic mechanics of Casimir apparatuses in a weak gravitational field

Relativistic mechanics of Casimir apparatuses in a weak gravitational field

Casimir energy for two and three superconducting coupled cavities: Numerical calculations

Energy-momentum tensor for a scalar Casimir apparatus in a weak gravitational field: Neumann conditions

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