Density of states, black holes and the Emergent String Conjecture
Abstract We study universal features of the density of one-particle states ρ(E) in weakly coupled theories of gravity at energies above the quantum gravity cutoff Λ, defined as the scale suppressing higher-derivative corrections to the Einstein-Hilbert action. Using thermodynamic properties of black...
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2025-01-01
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| Series: | Journal of High Energy Physics |
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| Online Access: | https://doi.org/10.1007/JHEP01(2025)144 |
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| author | Alek Bedroya Rashmish K. Mishra Max Wiesner |
| author_facet | Alek Bedroya Rashmish K. Mishra Max Wiesner |
| author_sort | Alek Bedroya |
| collection | DOAJ |
| description | Abstract We study universal features of the density of one-particle states ρ(E) in weakly coupled theories of gravity at energies above the quantum gravity cutoff Λ, defined as the scale suppressing higher-derivative corrections to the Einstein-Hilbert action. Using thermodynamic properties of black holes, we show that in asymptotically flat spacetimes, certain features of ρ(E) above the black hole threshold M min are an indicator for the existence of large extra dimensions, and cannot be reproduced by any lower-dimensional field theory with finitely many fields satisfying the weak energy condition. Based on the properties of gravitational scattering amplitudes, we argue that there needs to exist a (possibly higher-dimensional) effective description of gravity valid up to the cutoff Λ. Combining this with thermodynamic arguments we demonstrate that ρ(E) has to grow exponentially for energies Λ ≪ E ≪ M min. Furthermore we show that the tension of any weakly coupled p-brane with p ≥ 1 is bounded from below by Λ p+1. We use this to argue that any tower of weakly coupled states with mass below Λ has to be a Kaluza-Klein (KK) tower. Altogether these results indicate that in gravitational weak-coupling limits the lightest tower of states is either a KK tower, or has an exponentially growing degeneracy thereby resembling a string tower. This provides evidence for the Emergent String Conjecture without explicitly relying on string theory or supersymmetry. |
| format | Article |
| id | doaj-art-89f967afa7ce4807a861f37f1551a931 |
| institution | Kabale University |
| issn | 1029-8479 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | SpringerOpen |
| record_format | Article |
| series | Journal of High Energy Physics |
| spelling | doaj-art-89f967afa7ce4807a861f37f1551a9312025-02-09T12:08:07ZengSpringerOpenJournal of High Energy Physics1029-84792025-01-012025115210.1007/JHEP01(2025)144Density of states, black holes and the Emergent String ConjectureAlek Bedroya0Rashmish K. Mishra1Max Wiesner2Princeton Gravity Initiative, Princeton UniversityJefferson Physical Laboratory, Harvard UniversityJefferson Physical Laboratory, Harvard UniversityAbstract We study universal features of the density of one-particle states ρ(E) in weakly coupled theories of gravity at energies above the quantum gravity cutoff Λ, defined as the scale suppressing higher-derivative corrections to the Einstein-Hilbert action. Using thermodynamic properties of black holes, we show that in asymptotically flat spacetimes, certain features of ρ(E) above the black hole threshold M min are an indicator for the existence of large extra dimensions, and cannot be reproduced by any lower-dimensional field theory with finitely many fields satisfying the weak energy condition. Based on the properties of gravitational scattering amplitudes, we argue that there needs to exist a (possibly higher-dimensional) effective description of gravity valid up to the cutoff Λ. Combining this with thermodynamic arguments we demonstrate that ρ(E) has to grow exponentially for energies Λ ≪ E ≪ M min. Furthermore we show that the tension of any weakly coupled p-brane with p ≥ 1 is bounded from below by Λ p+1. We use this to argue that any tower of weakly coupled states with mass below Λ has to be a Kaluza-Klein (KK) tower. Altogether these results indicate that in gravitational weak-coupling limits the lightest tower of states is either a KK tower, or has an exponentially growing degeneracy thereby resembling a string tower. This provides evidence for the Emergent String Conjecture without explicitly relying on string theory or supersymmetry.https://doi.org/10.1007/JHEP01(2025)144Effective Field TheoriesString DualityBlack Holes in String TheoryScattering Amplitudes |
| spellingShingle | Alek Bedroya Rashmish K. Mishra Max Wiesner Density of states, black holes and the Emergent String Conjecture Journal of High Energy Physics Effective Field Theories String Duality Black Holes in String Theory Scattering Amplitudes |
| title | Density of states, black holes and the Emergent String Conjecture |
| title_full | Density of states, black holes and the Emergent String Conjecture |
| title_fullStr | Density of states, black holes and the Emergent String Conjecture |
| title_full_unstemmed | Density of states, black holes and the Emergent String Conjecture |
| title_short | Density of states, black holes and the Emergent String Conjecture |
| title_sort | density of states black holes and the emergent string conjecture |
| topic | Effective Field Theories String Duality Black Holes in String Theory Scattering Amplitudes |
| url | https://doi.org/10.1007/JHEP01(2025)144 |
| work_keys_str_mv | AT alekbedroya densityofstatesblackholesandtheemergentstringconjecture AT rashmishkmishra densityofstatesblackholesandtheemergentstringconjecture AT maxwiesner densityofstatesblackholesandtheemergentstringconjecture |