Ground State Energy of Massive Scalar Field Inside a Spherical Region in the Global Monopole Background
Abstract
Using the zeta function regularization method we calculate the ground state energy of scalar massive field inside a spherical region in the space-time of a point-like global monopole. Two cases are investigated: (i) We calculate the Casimir energy inside a sphere of radius R and make an analytical analysis about it. We observe that this energy may be positive or negative depending on metric coefficient α and non-conformal coupling . In the limit R∞ we found a zero result. (ii) In the second model we surround the monopole by additional sphere of radius r0<R and consider scalar field confined in the region between these two spheres. In the latter, the ground state energy presents an additional contribution due to boundary at r0 which is divergent for small radius. Additional comments about renormalization are considered.
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