%0 Journal Article
%T Semiclassical gravity in the far field limit of stars, black holes, and wormholes
%A Carlson, E. D.
%A Anderson, P. R.
%A Fabbri, A.
%A Fagnocchi, S.
%A Hirsch, W. H.
%A Klyap, S. A.
%J Physical Review D
%D 2010
%V 82
%N 12
%I Amer Physical Soc
%@ 1550-7998
%G English
%F Carlson_etal2010
%O ISI:000286749400008
%O exported from refbase (https://references.ific.uv.es/refbase/show.php?record=531), last updated on Thu, 24 Mar 2011 11:05:33 +0000
%X Semiclassical gravity is investigated in a large class of asymptotically flat, static, spherically symmetric spacetimes including those containing static stars, black holes, and wormholes. Specifically the stress-energy tensors of massless free spin 0 and spin 1/2 fields are computed to leading order in the asymptotic regions of these spacetimes. This is done for spin 0 fields in Schwarzschild spacetime using a WKB approximation. It is done numerically for the spin 1/2 field in Schwarzschild, extreme Reissner-Nordstrom, and various wormhole spacetimes. And it is done by finding analytic solutions to the leading order mode equations in a large class of asymptotically flat static spherically symmetric spacetimes. Agreement is shown between these various computational methods. It is found that, for all of the spacetimes considered, the energy density and pressure in the asymptotic region are proportional to r(-5) to leading order. Furthermore, for the spin 1/2 field and the conformally coupled scalar field, the stress-energy tensor depends only on the leading order geometry in the far field limit. This is also true for the minimally coupled scalar field for spacetimes containing either a static star or a black hole, but not for spacetimes containing a wormhole.
%R 10.1103/PhysRevD.82.124070
%U http://arxiv.org/abs/1008.1433
%U https://doi.org/10.1103/PhysRevD.82.124070
%P 124070-24pp