A puncture in the Euclidean black hole

Ram Brustein; Amit Giveon; Nissan Itzhaki; Yoav Zigdon

doi:10.1007/JHEP04(2022)021

A puncture in the Euclidean black hole

Ram Brustein, Amit Giveon, Nissan Itzhaki, Yoav Zigdon

Ben-Gurion University of the Negev, Tel Aviv University, The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

We consider the backreaction of the winding condensate on the cigar background. We focus on the case of the SL(2, ℝ)_k/U(1) cigar associated with, e.g., the near-horizon limit of k NS5 black-branes. We solve the equations of motion numerically in the large k limit as a function of the amplitude, A, of the winding mode at infinity. We find that there is a critical amplitude, A_c = exp(−γ/2), that admits a critical solution. In string theory, the exact SL(2, ℝ)_k/U(1) cigar CFT fixes completely the winding amplitude, A_s, at infinity. We find that in the large k limit there is an exact agreement, A_c = A_s. The critical solution is a cigar with a puncture at its tip; consequently, the black-hole entropy is carried entirely by the winding condensate. We argue that, in the Lorentzian case, the information escapes the black hole through this puncture.

Original language	American English
Article number	21
Journal	Journal of High Energy Physics
Volume	2022
Issue number	4
DOIs	https://doi.org/10.1007/JHEP04(2022)021
State	Published - 1 Apr 2022

Keywords

Black Holes in String Theory
Conformal Field Models in String Theory

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics

Access to Document

10.1007/JHEP04(2022)021

Cite this

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title = "A puncture in the Euclidean black hole",

abstract = "We consider the backreaction of the winding condensate on the cigar background. We focus on the case of the SL(2, ℝ)k/U(1) cigar associated with, e.g., the near-horizon limit of k NS5 black-branes. We solve the equations of motion numerically in the large k limit as a function of the amplitude, A, of the winding mode at infinity. We find that there is a critical amplitude, Ac = exp(−γ/2), that admits a critical solution. In string theory, the exact SL(2, ℝ)k/U(1) cigar CFT fixes completely the winding amplitude, As, at infinity. We find that in the large k limit there is an exact agreement, Ac = As. The critical solution is a cigar with a puncture at its tip; consequently, the black-hole entropy is carried entirely by the winding condensate. We argue that, in the Lorentzian case, the information escapes the black hole through this puncture.",

keywords = "Black Holes in String Theory, Conformal Field Models in String Theory",

author = "Ram Brustein and Amit Giveon and Nissan Itzhaki and Yoav Zigdon",

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AU - Brustein, Ram

AU - Giveon, Amit

AU - Itzhaki, Nissan

AU - Zigdon, Yoav

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N2 - We consider the backreaction of the winding condensate on the cigar background. We focus on the case of the SL(2, ℝ)k/U(1) cigar associated with, e.g., the near-horizon limit of k NS5 black-branes. We solve the equations of motion numerically in the large k limit as a function of the amplitude, A, of the winding mode at infinity. We find that there is a critical amplitude, Ac = exp(−γ/2), that admits a critical solution. In string theory, the exact SL(2, ℝ)k/U(1) cigar CFT fixes completely the winding amplitude, As, at infinity. We find that in the large k limit there is an exact agreement, Ac = As. The critical solution is a cigar with a puncture at its tip; consequently, the black-hole entropy is carried entirely by the winding condensate. We argue that, in the Lorentzian case, the information escapes the black hole through this puncture.

AB - We consider the backreaction of the winding condensate on the cigar background. We focus on the case of the SL(2, ℝ)k/U(1) cigar associated with, e.g., the near-horizon limit of k NS5 black-branes. We solve the equations of motion numerically in the large k limit as a function of the amplitude, A, of the winding mode at infinity. We find that there is a critical amplitude, Ac = exp(−γ/2), that admits a critical solution. In string theory, the exact SL(2, ℝ)k/U(1) cigar CFT fixes completely the winding amplitude, As, at infinity. We find that in the large k limit there is an exact agreement, Ac = As. The critical solution is a cigar with a puncture at its tip; consequently, the black-hole entropy is carried entirely by the winding condensate. We argue that, in the Lorentzian case, the information escapes the black hole through this puncture.

KW - Black Holes in String Theory

KW - Conformal Field Models in String Theory

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DO - 10.1007/JHEP04(2022)021

M3 - Article

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JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 4

M1 - 21

ER -

A puncture in the Euclidean black hole

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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