Abstract

In this paper we show how the stochastic quantization method developed by Parisi and Wu can be used to obtain Casimir forces. Both quantum and thermal fluctuations are taken into account by a Langevin equation for the field. The method allows the Casimir force to be obtained directly, derived from the stress tensor instead of the free energy. It only requires the spectral decomposition of the Laplacian operator in the given geometry. The formalism provides also an expression for the fluctuations of the force. As an application we compute the Casimir force on the plates of a finite piston of arbitrary cross-section. Fluctuations of the force are also directly obtained, and it is shown that, in the piston case, the variance of the force is twice the force squared.

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Volume Title

Publisher

IOP Publishing

URI

https://hdl.handle.net/10115/49218

DOI

https://doi.org/10.1209/0295-5075/96/50008

Date

2011-11-25

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Keywords

Casimir force , Parisi-Wu , Stochastic Quantization , Stochastic Diferential Equation , quantum fluctuations , Lagevin equation , force variance , finite piston

Citation

Rodriguez-Lopez, P., Brito, R., & Soto, R. (2011). Stochastic quantization and Casimir forces. Europhysics Letters, 96(5), 50008. 10.1209/0295-5075/96/50008

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