M
Mauro Antezza
Researcher at University of Montpellier
Publications - 139
Citations - 3645
Mauro Antezza is an academic researcher from University of Montpellier. The author has contributed to research in topics: Casimir effect & Thermal equilibrium. The author has an hindex of 29, co-authored 121 publications receiving 2758 citations. Previous affiliations of Mauro Antezza include Sapienza University of Rome & Centre national de la recherche scientifique.
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Measurement of the temperature dependence of the Casimir-Polder force
John M. Obrecht,Robert Wild,Mauro Antezza,Lev P. Pitaevskii,Sandro Stringari,Eric A. Cornell +5 more
TL;DR: The first measurement of a temperature dependence of the Casimir-Polder force was obtained by positioning a nearly pure 87Rb Bose-Einstein condensate a few microns from a dielectric substrate and exciting its dipole oscillation.
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Reconciliation of quantum local master equations with thermodynamics
Gabriele De Chiara,Gabriele De Chiara,Gabriel T. Landi,Adam Hewgill,Brendan Reid,Alessandro Ferraro,Augusto J. Roncaglia,Mauro Antezza,Mauro Antezza,Mauro Antezza +9 more
TL;DR: In this article, a microscopic model of local master equations (LMEs) based on repeated collisions is proposed to model a chain of quantum harmonic oscillators whose ends are connected to thermal reservoirs at different temperatures.
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Near-field heat transfer between graphene/hBN multilayers
TL;DR: In this paper, the authors studied the radiative heat transfer between multilayer structures made by a periodic repetition of a graphene sheet and a hexagonal boron nitride (hBN) slab.
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Effect of the Casimir-Polder force on the collective oscillations of a trapped Bose-Einstein condensate
TL;DR: In this paper, the effect of the interaction between an optically active material and a Bose-Einstein condensate on the collective oscillations of the condensates was investigated.
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New asymptotic behavior of the surface-atom force out of thermal equilibrium.
TL;DR: The Casimir-Polder-Lifshitz force felt by an atom near the surface of a substrate is calculated out of thermal equilibrium in terms of the dielectric function of the material and of the atomic polarizability to predictions can be relevant for experiments with ultracold atomic gases.