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W2022162295 abstract "Recently [J. Haro and E. Elizalde, Phys. Rev. Lett. 97, 130401 (2006)], a Hamiltonian formulation has been introduced in order to address some long-standing severe problems associated with the physical description of the dynamical Casimir effect at all times while the mirrors are moving. Here we present the complete calculation providing precise details, in particular, of the regularization procedure, which is decisive for the correct derivation of physically meaningful quantities. A basic difference when comparing with the results previously obtained by other authors is the fact that the motion force derived in our approach contains a reactive term---proportional to the mirrors' acceleration. This is of the essence in order to obtain particles with a positive energy at all times during the oscillation of the mirrors---while always satisfying the energy conservation law. A careful analysis of the interrelations among the different results previously obtained in the literature is then carried out. For simplicity, the specific case of a neutral scalar field in one dimension, with one or two partially transmitting mirrors (a fundamental proviso for the regularization issue), is considered in more detail, but our general method is shown to be generalizable, without essential problems (Sec. II of this paper), to fields of any kind in two and higher dimensions." @default.
W2022162295 created "2016-06-24" @default.
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W2022162295 date "2007-09-04" @default.
W2022162295 modified "2023-10-09" @default.
W2022162295 title "Physically sound Hamiltonian formulation of the dynamical Casimir effect" @default.
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W2022162295 cites W1963493269 @default.
W2022162295 cites W1964694712 @default.
W2022162295 cites W19664807 @default.
W2022162295 cites W1967903203 @default.
W2022162295 cites W1972248545 @default.
W2022162295 cites W1992204683 @default.
W2022162295 cites W1999505373 @default.
W2022162295 cites W2001575398 @default.
W2022162295 cites W2002509047 @default.
W2022162295 cites W2004125390 @default.
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W2022162295 cites W2022157563 @default.
W2022162295 cites W2023038887 @default.
W2022162295 cites W2028812211 @default.
W2022162295 cites W2033561465 @default.
W2022162295 cites W2040283635 @default.
W2022162295 cites W2043477010 @default.
W2022162295 cites W2046386962 @default.
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W2022162295 cites W2049304629 @default.
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W2022162295 cites W2057018322 @default.
W2022162295 cites W2058363717 @default.
W2022162295 cites W2060010057 @default.
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W2022162295 doi "https://doi.org/10.1103/physrevd.76.065001" @default.
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