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Main Authors: van de Heisteeg, Damian, Vafa, Cumrun, Wiesner, Max, Wu, David H.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2310.07213
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author van de Heisteeg, Damian
Vafa, Cumrun
Wiesner, Max
Wu, David H.
author_facet van de Heisteeg, Damian
Vafa, Cumrun
Wiesner, Max
Wu, David H.
contents In a quantum theory of gravity, the species scale $Λ_s$ can be defined as the scale at which corrections to the Einstein action become important or alternatively as codifying the "number of light degrees of freedom", due to the fact that $Λ_s^{-1}$ is the smallest size black hole described by the EFT involving only the Einstein term. In this paper, we check the validity of this picture in diverse dimensions and with different amounts of supersymmetry and verify the expected behavior of the species scale at the boundary of the moduli space. This also leads to the evaluation of the species scale in the interior of the moduli space as well as to the computation of the diameter of the moduli space. We also find evidence that the species scale satisfies the bound $\big|{\nabla Λ_s \over Λ_s} \big|^2\leq {1\over d-2}$ all over moduli space including the interior.
format Preprint
id arxiv_https___arxiv_org_abs_2310_07213
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Species Scale in Diverse Dimensions
van de Heisteeg, Damian
Vafa, Cumrun
Wiesner, Max
Wu, David H.
High Energy Physics - Theory
In a quantum theory of gravity, the species scale $Λ_s$ can be defined as the scale at which corrections to the Einstein action become important or alternatively as codifying the "number of light degrees of freedom", due to the fact that $Λ_s^{-1}$ is the smallest size black hole described by the EFT involving only the Einstein term. In this paper, we check the validity of this picture in diverse dimensions and with different amounts of supersymmetry and verify the expected behavior of the species scale at the boundary of the moduli space. This also leads to the evaluation of the species scale in the interior of the moduli space as well as to the computation of the diameter of the moduli space. We also find evidence that the species scale satisfies the bound $\big|{\nabla Λ_s \over Λ_s} \big|^2\leq {1\over d-2}$ all over moduli space including the interior.
title Species Scale in Diverse Dimensions
topic High Energy Physics - Theory
url https://arxiv.org/abs/2310.07213