The zero-point energy of a conducting spherical shell is studied by imposing the axial gauge via pathintegral methods, with boundary conditions on the electromagnetic potential and ghost fields. The coupled modes are then found to be the temporal and longitudinal modes for the Maxwell field. The resulting system can be decoupled by studying a fourth-order differential equation with boundary conditions on longitudinal modes and their second derivatives. The exact solution of such an equation is found by using a Green-function method, and is obtained from Bessel functions and definite integrals involving Bessel functions. Complete agreement with a previous path-integral analysis in the Lorenz gauge, and with Boyer’s value, is proved in detail.
Casimir energy in the axial gauge / Esposito, G; KAMENSHCHIK A., Yu; Kirsten, K. - In: PHYSICAL REVIEW D. - ISSN 0556-2821. - 62:8(2000), pp. 085027-1-085027-5. [10.1103/PhysRevD.62.085027]
Casimir energy in the axial gauge
ESPOSITO GPrimo
;
2000
Abstract
The zero-point energy of a conducting spherical shell is studied by imposing the axial gauge via pathintegral methods, with boundary conditions on the electromagnetic potential and ghost fields. The coupled modes are then found to be the temporal and longitudinal modes for the Maxwell field. The resulting system can be decoupled by studying a fourth-order differential equation with boundary conditions on longitudinal modes and their second derivatives. The exact solution of such an equation is found by using a Green-function method, and is obtained from Bessel functions and definite integrals involving Bessel functions. Complete agreement with a previous path-integral analysis in the Lorenz gauge, and with Boyer’s value, is proved in detail.| File | Dimensione | Formato | |
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