Source: http://www.proceedings.blucher.com.br/article-details/efeito-casimir-em-meios-dieltricos-20069
Timestamp: 2019-04-18 22:54:59+00:00

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Em 1948, Hendrik Casimir demonstrou que, duas placas paralelas condutoras e neutras sofrem uma força atrativa devido a flutuações do campo eletromagnético no vácuo. Neste trabalho, foi investigado o efeito Casimir entre dois semiespaços paralelos separados por uma distância d, e de constantes dielétricas ε_(1 ) (ω) e ε_(2 ) (ω) intercalados por um espaço de constante dielétrica ε_(3 ) (ω). Foram investigadas as forças entre as superfícies metálicas paralelas imersas entre os espaços e, discutida a contribuição dos plasmons no efeito Casimir nessas condições de contorno.
In 1948, Hendrik Casimir showed that two conductive parallel and neutral plates experience an attractive force due to fluctuations of the electromagnetic field in a the vacuum state. In this study, was investigated the Casimir effect between two semi spaces separated by a distance d, and dielectric constants ε_(1 ) (ω) and〖 ε〗_(2 ) (ω) interspersed by a space which dielectric constant is〖 ε〗_(3 ) (ω). Were investigated the forces between the parallel metal surfaces immersed among the spaces and discussed the contribution of plasmons in the Casimir effect in these boundary conditions.
 CASIMIR, H. B. G 1948 Proc. K. In: Ned. Akad. Wet. B. p. 793.
 VAN KAMPEN, N. G.; NIJBOER, B. R. A.; SCHRAM, K. On the macroscopic theory of van der Waals forces. Physics letters A, v. 26, n. 7, p. 307-308, 1968.
 MILONNI, P. W. Casimir forces without the vacuum radiation field. Physical Review A, v. 25, n. 3, p. 1315, 1982.
 SCHWINGER, Julian. On gauge invariance and vacuum polarization. Physical Review, v. 82, n. 5, p. 664, 1951.
 LIFSHITZ, E. M. The theory of molecular attractive forces between solids. 1956.
 [8 DIONNE, Jennifer A. Viewpoint: Mirror, Mirror. Physics, v. 5, p. 38, 2012.
 BORDAG, Michael. The Casimir effect for thin plasma sheets and the role of the surface plasmons. Journal of Physics A: Mathematical and General, v. 39, n. 21, p. 6173, 2006.
 SCHWINGER, Julian; DERAAD, Lester L.; MILTON, Kimball A. Casimir effect in dielectrics. Annals of Physics, v. 115, n. 1, p. 1-23, 1978.
 CHEN, F. et al. Control of the Casimir force by the modification of dielectric properties with light. Physical review B, v. 76, n. 3, p. 035338, 2007.
Rocha, J.R; Orlando, M.T. D; "Efeito Casimir em meios dielétricos", p. 5-10 . In: Anais do VI Encontro Científico de Física Aplicada [=Blucher Physics Proceedings, v.2, n.1].. São Paulo: Blucher, 2015.
 CASIMIR, H. B. G 1948 Proc. K. In: Ned. Akad. Wet. B. p. 793.  VAN KAMPEN, N. G.; NIJBOER, B. R. A.; SCHRAM, K. On the macroscopic theory of van der Waals forces. Physics letters A, v. 26, n. 7, p. 307-308, 1968. MILONNI, P. W. Casimir forces without the vacuum radiation field. Physical Review A, v. 25, n. 3, p. 1315, 1982. . LANDAU, Lev Davidovich et al. Electrodynamics of continuous media. Elsevier, 1984. GREINER, Walter. Quantum electrodynamics of strong fields. Springer Berlin Heidelberg, 1985. SCHWINGER, Julian. On gauge invariance and vacuum polarization. Physical Review, v. 82, n. 5, p. 664, 1951.  LIFSHITZ, E. M. The theory of molecular attractive forces between solids. 1956. [8 DIONNE, Jennifer A. Viewpoint: Mirror, Mirror. Physics, v. 5, p. 38, 2012.  BORDAG, Michael. The Casimir effect for thin plasma sheets and the role of the surface plasmons. Journal of Physics A: Mathematical and General, v. 39, n. 21, p. 6173, 2006.  SCHWINGER, Julian; DERAAD, Lester L.; MILTON, Kimball A. Casimir effect in dielectrics. Annals of Physics, v. 115, n. 1, p. 1-23, 1978. CHEN, F. et al. Control of the Casimir force by the modification of dielectric properties with light. Physical review B, v. 76, n. 3, p. 035338, 2007.

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