Direkt zum Inhalt
University of Regensburg
DE: this page in English

Lap, Joseph Dominicus ; Müller, Berndt ; Schäfer, Andreas ; Seidl, Clemens

Holography for BCFTs with multiple boundaries: multi-splitting quenches

Lap, Joseph Dominicus, Müller, Berndt, Schäfer, Andreas and Seidl, Clemens (2025) Holography for BCFTs with multiple boundaries: multi-splitting quenches. Journal of High Energy Physics 2025 (8).

Date of publication of this fulltext: 15 Apr 2026 11:18
Article
DOI to cite this document: 10.5283/epub.79040

[img]Published Version
Download ( PDF | 692kB)		License: Creative Commons Attribution 4.0

Abstract

We elaborate on the method introduced in arXiv:2403.02165 for holographic duals of Boundary Conformal Field Theories (BCFTs) with multiple boundaries. Naïvely, as the number of boundaries grow large such a calculation becomes unmanageable. We show that is not always the case. Using these advances we calculate the entanglement entropy as a function of time for 1+1-dimensional CFTs that are split ...

We elaborate on the method introduced in arXiv:2403.02165 for holographic duals of Boundary Conformal Field Theories (BCFTs) with multiple boundaries. Naïvely, as the number of boundaries grow large such a calculation becomes unmanageable. We show that is not always the case. Using these advances we calculate the entanglement entropy as a function of time for 1+1-dimensional CFTs that are split into N subsystems. We give explicit results for N = 4 and N = 17. We find that all qualitative differences that arise for larger N are present N = 4.

Alternative links to fulltext

Involved Institutions

Details

Item typeArticle
Journal or Publication TitleJournal of High Energy Physics
Publisher:Springer Nature
Volume:2025
Number of Issue or Book Chapter:8
Date8 August 2025
InstitutionsPhysics > Institute of Theroretical Physics > Chair Professor Schäfer > Group Andreas Schäfer
Identification Number
ValueType
10.1007/JHEP08(2025)067DOI
KeywordsAdS-CFT Correspondence, Boundary Quantum Field Theory, Holography and Condensed Matter Physics (AdS/CMT), Non-Equilibrium Field Theory
Dewey Decimal Classification500 Science > 530 Physics
StatusPublished
RefereedYes, this version has been refereed
Created at the University of RegensburgPartially
URN of the UB Regensburgurn:nbn:de:bvb:355-epub-790409
Item ID79040

Export bibliographical data

Hochladedatum:15 Apr 2026 11:18/Metadata last modified: 16 Apr 2026 14:15

Owner only: item control page
Download Statistics

Download Statistics

Altmetric

Alternative Statistics (altmetrics)

More literature (via CORE)

More literature (via CORE)

nach oben