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Hauptverfasser: Baddis, Saad Eddine, Belhaj, Adil, Belmahi, Hajar
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2508.12378
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author Baddis, Saad Eddine
Belhaj, Adil
Belmahi, Hajar
author_facet Baddis, Saad Eddine
Belhaj, Adil
Belmahi, Hajar
contents Motivated by string theory activities, we investigate the swampland program in the black hole context via CUDA numerical computations. Precisely, we study charged black hole solutions submerged in a hypergeometric inflationary potential extracted from Gauss-Bonnet scalar couplings to the Einstein-Maxwell-Hilbert action. Exploiting CUDA enabled parallel programming techniques, we examine the scalar potential behaviors permitting to derive the physically relevant roots of the black hole metric function. Equipped with more powerful CUDA techniques, we explore the effects of the parametric quantities on such roots supporting a swampland investigation. Accordingly, we establish a relationship between the charge $Q$ and the mass $M$ of a charged black hole allowing to approach the extremal limit and the cosmic horizon behaviors. Furthermore, we highlight the implications of the scalar field related to swampland conjectures including the moduli distance. Employing certain developed CUDA techniques to extract criticality conditions via black hole thermodynamics, we establish a relationship between the scalar moduli and the charge $Q$, enabling to show at what stage black holes can become unstable disintegrating into light states associated with the ratio $\frac{Q}{M}>2\sqrtπ$.
format Preprint
id arxiv_https___arxiv_org_abs_2508_12378
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle CUDA Assisted Swampland and Black Hole Thermodynamics
Baddis, Saad Eddine
Belhaj, Adil
Belmahi, Hajar
High Energy Physics - Theory
Motivated by string theory activities, we investigate the swampland program in the black hole context via CUDA numerical computations. Precisely, we study charged black hole solutions submerged in a hypergeometric inflationary potential extracted from Gauss-Bonnet scalar couplings to the Einstein-Maxwell-Hilbert action. Exploiting CUDA enabled parallel programming techniques, we examine the scalar potential behaviors permitting to derive the physically relevant roots of the black hole metric function. Equipped with more powerful CUDA techniques, we explore the effects of the parametric quantities on such roots supporting a swampland investigation. Accordingly, we establish a relationship between the charge $Q$ and the mass $M$ of a charged black hole allowing to approach the extremal limit and the cosmic horizon behaviors. Furthermore, we highlight the implications of the scalar field related to swampland conjectures including the moduli distance. Employing certain developed CUDA techniques to extract criticality conditions via black hole thermodynamics, we establish a relationship between the scalar moduli and the charge $Q$, enabling to show at what stage black holes can become unstable disintegrating into light states associated with the ratio $\frac{Q}{M}>2\sqrtπ$.
title CUDA Assisted Swampland and Black Hole Thermodynamics
topic High Energy Physics - Theory
url https://arxiv.org/abs/2508.12378