High Energy Physics - Theory
[Submitted on 4 May 2018 (v1), revised 7 May 2018 (this version, v2), latest version 25 Oct 2019 (v4)]
Title:On the Global Casimir Effect in the Schwarzschild Spacetime II: Rainbow's Gravity Corrections
View PDFAbstract:In this paper we compute corrections to the global Casimir effect of a massive scalar field around a static mini black hole at zero and finite temperature due to the Rainbow's Gravity. For this we use the analytical solutions for the scalar field with mass $m$ in the deformed Schwarzschild background. The analysis is made by considering the limit for which the source mass, $M$, approaches zero, in order to verify the effects of quantum gravity on the global Casimir effect in the final moments of the evaporating black hole. Initially, we compute the corrected stable part of the Casimir energy at zero temperature. At finite temperature we compute the corrected vacuum thermodynamic quantities of the system: free energy, internal energy, entropy and heat capacity, including the high temperature limits. We find a singular behavior for the Casimir energy at zero temperature as well as for all the corresponding thermodynamic quantities when $m^2=\omega^2_P/\xi$ and this can be seen as the limit of validity of the model. However the conclusions about the thermodynamic stability of the vacuum are basically the same as in the uncorrected case. We also find that the remnant Casimir tension over the event horizon is finite for any temperature and all parameter values. More importantly, we show that the tension receives no corrections from Rainbow's Gravity for zero or finite temperature. This points to the fact that such behavior may be an universal property of the black hole evaporation. As a byproduct we correct the result of a recently published article about the subject, analysed in the general relativity context, and find a positive remnant Casimir tension in the high temperature limit, showing that this latter cannot "erase" the zero temperature remnant Casimir tension, as concluded in that work. In fact the effect of high temperatures will be to double it.
Submission history
From: G. Alencar [view email][v1] Fri, 4 May 2018 14:02:55 UTC (425 KB)
[v2] Mon, 7 May 2018 13:46:49 UTC (425 KB)
[v3] Wed, 16 May 2018 19:42:41 UTC (425 KB)
[v4] Fri, 25 Oct 2019 16:43:45 UTC (589 KB)
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