Black Hole as a Point Radiator and Recoil Effect on the Brane World

TL;DR

This paper models black holes on branes as scalar particles with internal states, showing that recoil effects can terminate thermal emission and lead to observable energy non-conservation in collider experiments.

Contribution

It introduces a field theory model linking black hole recoil to emission processes, providing a framework to study black hole behavior in brane-world scenarios.

Findings

Recoil can halt black hole thermal emission.

Energy non-conservation may be detectable in collider experiments.

Model aligns transition probabilities with Schwarzschild black hole emission.

Abstract

A small black hole attached to a brane in a higher dimensional space emitting quanta into the bulk may leave the brane as a result of a recoil. We construct a field theory model in which such a black hole is described as a massive scalar particle with internal degrees of freedom. In this model, the probability of transition between the different internal levels followed by emission of massless quanta is identical to the probability of thermal emission calculated for the Schwarzschild black hole. The discussed recoil effect implies that the thermal emission of the black holes, which might be created by interaction of high energy particles in colliders, could be terminated and the energy non-conservation can be observed in the brane experiments.