Open AccessTev-Scale Black Hole Lifetimes in Extra-Dimensional Lovelock Gravity
Author(s) -
Thomas G. Rizzo
Publication year - 2006
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/877988
Subject(s) - microcanonical ensemble , physics , curvature , hawking radiation , black hole (networking) , einstein , action (physics) , invariant mass , scale (ratio) , canonical ensemble , theoretical physics , statistical physics , classical mechanics , particle physics , quantum mechanics , gravitational wave , monte carlo method , geometry , mathematics , statistics , computer network , routing protocol , routing (electronic design automation) , computer science , link state routing protocol
We examine the mass loss rates and lifetimes of TeV-scale extra dimensional black holes (BH) in ADD-like models with Lovelock higher-curvature terms present in the action. In particular we focus on the predicted differences between the canonical and microcanonical ensemble statistical mechanics descriptions of the Hawking radiation that results in the decay of these BH. In even numbers of extra dimensions the employment of the microcanonical approach is shown to generally lead to a significant increase in the BH lifetime as in case of the Einstein-Hilbert action. For odd numbers of extra dimensions, stable BH remnants occur when employing either description provided the highest order allowed Lovelock invariant is present. However, in this case, the time dependence of the mass loss rates obtained employing the two approaches will be different. These effects are in principle measurable at future colliders
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