The force between two parallel rigid plates due to the radiation pressure of broadband noise: An acoustic Casimir effect

Theoretical and experimental results are presented for the force law between two rigid, parallel plates due to the radiation pressure of broadband acoustic noise. The noise is in the band of 5–15 kHz and has an intensity of 133 dB (re: 10−12 W/m2). Excellent quantitative agreement is shown between t...

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Veröffentlicht in:	The Journal of the Acoustical Society of America 1998-05, Vol.103 (5), p.2267-2272
Hauptverfasser:	Larraza, Andrés, Holmes, Christopher D., Susbilla, Robert T., Denardo, Bruce
Format:	Artikel
Sprache:	eng
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creator	Larraza, Andrés Holmes, Christopher D. Susbilla, Robert T. Denardo, Bruce
description	Theoretical and experimental results are presented for the force law between two rigid, parallel plates due to the radiation pressure of broadband acoustic noise. The noise is in the band of 5–15 kHz and has an intensity of 133 dB (re: 10−12 W/m2). Excellent quantitative agreement is shown between theory and experiment. These results constitute an acoustic analog for the Casimir effect, which is the force experienced by two closely spaced uncharged conducting plates due to the quantum electromagnetic zero-point field. In contrast to this case, however, band-limited noise can cause the force to be attractive or repulsive as a function of separation between the plates.
doi_str_mv	10.1121/1.422744
format	Article
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title	The force between two parallel rigid plates due to the radiation pressure of broadband noise: An acoustic Casimir effect
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