Black Remnants from T-Duality

TL;DR

This paper investigates the impact of T-duality-induced non-perturbative effects on black remnants, their production constraints at the LHC, and their influence on various black hole solutions and thermodynamic behaviors.

Contribution

It provides a comprehensive analysis of non-perturbative string effects on black remnants and their observable consequences, including constraints from collider data and modifications to black hole thermodynamics.

Findings

Non-perturbative effects can explain the absence of mini black holes at the LHC.

Constraints on models with large extra dimensions are derived from LHC data.

Non-perturbative corrections influence the Van der Waals behavior of AdS black holes.

Abstract

In this paper, we will analyze the physical consequences of black remnants, which form due to non-perturbative string theoretical effects. These non-perturbative effects occur due to the T-duality in string theory. We will analyze the production of such black remnants in models with large extra dimensions, and demonstrate that these non-perturbative effects can explain the absence of mini black holes at the LHC. In fact, will constraint such models using data from the LHC. We will also analyze such non-perturbative corrections for various other black hole solutions. Thus, we will analyze the effects of such non-perturbative effects on the Van der Waals behavior of AdS black holes. We will also discuss the effects of adding a chemical potential to this system. Finally, we will comment on the physical consequences of such non-pertubative corrections to black hole solutions.