Bibliographic Information: Deng, F., & Wang, Z. (2024). Holographic boundary conformal field theory with T¯T deformation. Journal of High Energy Physics. arXiv:2411.06345v1 [hep-th]
Research Objective: This paper aims to investigate the holographic dual of boundary conformal field theories (BCFTs) with T¯T deformation, a question arising from the intersection of AdS/CFT correspondence, AdS/BCFT duality, and holographic T¯T CFTs.
Methodology: The authors employ a bottom-up approach, combining the AdS/BCFT duality with the cutoff description of holographic T¯T CFT. They propose a bulk dual model consisting of AdS gravity enclosed by an EOW brane with Neumann boundary condition and a finite cutoff boundary with Dirichlet boundary condition. Two types of T¯T BCFTs are distinguished based on whether the boundary is deformed by the T¯T operator. To support their proposal, they calculate various quantities, including boundary entropy, energy spectrum for a finite interval, entanglement entropy, and Rényi entropy, comparing results from both field theory and gravity perspectives.
Key Findings: The study reveals two distinct types of T¯T BCFTs with different holographic duals. For Type A (boundary-deformed), the boundary entropy serves as a measure of boundary deformation. Calculations of boundary entropy from disk partition function and holographic entanglement entropy show agreement. For Type B (boundary-undeformed), the boundary remains unaffected by the T¯T deformation. Calculations of entanglement entropy and Rényi entropy from both field theory and gravity perspectives also demonstrate consistency.
Main Conclusions: The research proposes a novel holographic dual model for T¯T BCFT, providing evidence for its validity through calculations of key quantities. The distinction between boundary-deformed and boundary-undeformed cases highlights the nuanced interplay between boundary effects and T¯T deformation in holographic settings.
Significance: This work advances the understanding of AdS/CFT correspondence in the context of BCFTs with T¯T deformation. It offers a new framework for studying strongly coupled CFTs with boundaries and sheds light on the holographic interpretation of T¯T deformation in such systems.
Limitations and Future Research: The study primarily focuses on two specific examples of T¯T BCFTs. Exploring more general cases and extending the analysis to higher dimensions would provide further insights. Investigating other quantum information quantities, such as reflected entropy and entanglement negativity, could reveal additional aspects of this duality.
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