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Main Authors: Makridou, Andriana, Gómez, Alejandro Javier Puga
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.06793
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author Makridou, Andriana
Gómez, Alejandro Javier Puga
author_facet Makridou, Andriana
Gómez, Alejandro Javier Puga
contents We propose a sharpened version of Dynamical Cobordism, where the physical structure $ξ$ of the theory in question determines an allowed range $R^ξ$ for the critical exponent $δ$. We interpret a singularity with $δ\in R^ξ$ as a true transition-to-nothing, i.e., a configuration ending spacetime, while a singularity with $δ\notin R^ξ$ indicates some obstruction to such a transition, i.e., the presence of a non-trivial cobordism global charge, which is incompatible with a theory of quantum gravity. In the spirit of the original Cobordism Conjecture, this apparent inconsistency of the theory can be alleviated via the modification of the structure, for instance by introducing new degrees of freedom and associated defects. Inspired by the Gubser criterion for good singularities, we propose a way to determine $R^ξ$. As a proof-of-concept we show explicitly how the introduction of a higher-form gauge field changes the allowed range of $δ$ compared to an EFT with only scalars. We test this sharpened version of Dynamical Cobordism against several examples, such as massive IIA string theory, where it is notably compatible with the presence of O8-planes; the Janis-Newman-Winicour and Garfinkle-Horowitz-Strominger black hole solutions; and certain singular distributions of D-branes. In all these cases, the Sharpened Dynamical Cobordism Conjecture leads to results consistent with our expectations.
format Preprint
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institution arXiv
publishDate 2026
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spellingShingle Sharpened Dynamical Cobordism
Makridou, Andriana
Gómez, Alejandro Javier Puga
High Energy Physics - Theory
We propose a sharpened version of Dynamical Cobordism, where the physical structure $ξ$ of the theory in question determines an allowed range $R^ξ$ for the critical exponent $δ$. We interpret a singularity with $δ\in R^ξ$ as a true transition-to-nothing, i.e., a configuration ending spacetime, while a singularity with $δ\notin R^ξ$ indicates some obstruction to such a transition, i.e., the presence of a non-trivial cobordism global charge, which is incompatible with a theory of quantum gravity. In the spirit of the original Cobordism Conjecture, this apparent inconsistency of the theory can be alleviated via the modification of the structure, for instance by introducing new degrees of freedom and associated defects. Inspired by the Gubser criterion for good singularities, we propose a way to determine $R^ξ$. As a proof-of-concept we show explicitly how the introduction of a higher-form gauge field changes the allowed range of $δ$ compared to an EFT with only scalars. We test this sharpened version of Dynamical Cobordism against several examples, such as massive IIA string theory, where it is notably compatible with the presence of O8-planes; the Janis-Newman-Winicour and Garfinkle-Horowitz-Strominger black hole solutions; and certain singular distributions of D-branes. In all these cases, the Sharpened Dynamical Cobordism Conjecture leads to results consistent with our expectations.
title Sharpened Dynamical Cobordism
topic High Energy Physics - Theory
url https://arxiv.org/abs/2605.06793