{"total":24,"items":[{"citing_arxiv_id":"2605.17438","ref_index":13,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Holographic entanglement entropy in the QCD phase diagram under external magnetic field","primary_cat":"hep-th","submitted_at":"2026-05-17T13:20:12+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":4.0,"formal_verification":"none","one_line_summary":"Holographic entanglement entropy exhibits a swallow-tail structure indicating connected-to-disconnected transitions for perpendicular magnetic fields in the QCD phase diagram while remaining monotonic for parallel fields, consistent with black hole thermodynamics.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2605.13956","ref_index":108,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"q-Askey Deformations of Double-Scaled SYK","primary_cat":"hep-th","submitted_at":"2026-05-13T18:00:01+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"q-Askey deformations of double-scaled SYK yield transfer matrices for orthogonal polynomials whose semiclassical chord dynamics map to ER bridges and new geometric transitions in sine dilaton gravity.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"In particular, for systems described by a type II1 algebra, such as the DSSYK model [96, 105] (restricted to operators that only probe its thermal properties), one can find a rigorous notion of entanglement entropy between a subsystem algebra and its commutant [26, 27, 106]. The algebraic entanglement entropy manifests in the bulk, as predicted by the Ryu-Takayanagi (RT) formula [107, 108] (reviewed in [109-112], and extended in [113-115]). A central outcome of this work is that the bulk manifestation of algebraic entanglement entropy continues to hold after deforming the SYK model, in the regime where the RT formula is valid. 1.1 Results and outline In Sec. 2, we define q-Askey deformations of the SYK model, and we study their ensemble"},{"citing_arxiv_id":"2605.16316","ref_index":34,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Gauging Time Reversal Symmetry in Quantum Gravity: Arrow of Time from a Confinement--Deconfinement Transition","primary_cat":"physics.gen-ph","submitted_at":"2026-05-04T21:08:30+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"The emergence of the cosmological arrow of time is identified with a confinement-deconfinement transition in a Z2 lattice gauge theory on LQG spin networks, with the deconfined phase corresponding to a CZX-type SPT phase.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2604.21408","ref_index":23,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"Holographic complexity of conformal fields in global de Sitter spacetime","primary_cat":"hep-th","submitted_at":"2026-04-23T08:22:52+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Holographic complexity of CFTs in global dS_d is computed via volume and action prescriptions in AdS foliation and brane setups, then compared to results from static and Poincare patches.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"Myers,Circuit complexity in quantum field theory,JHEP10(2017) 107 [1707.08570]. [21] N. Chagnet, S. Chapman, J. de Boer and C. Zukowski,Complexity for Conformal Field Theories in General Dimensions,Phys. Rev. Lett.128(2022) 051601 [2103.06920]. [22] J.M. Maldacena,The LargeNlimit of superconformal field theories and supergravity,Adv. Theor. Math. Phys.2(1998) 231 [hep-th/9711200]. [23] E. Witten,Anti de Sitter space and holography,Adv. Theor. Math. Phys.2(1998) 253 [hep-th/9802150]. [24] S. Ryu and T. Takayanagi,Holographic derivation of entanglement entropy from AdS/CFT, Phys. Rev. Lett.96(2006) 181602 [hep-th/0603001]. [25] S. Ryu and T. Takayanagi,Aspects of Holographic Entanglement Entropy,JHEP08(2006) 045 [hep-th/0605073]."},{"citing_arxiv_id":"2604.15730","ref_index":3,"ref_count":2,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Stringy Effects on Holographic Complexity: The Complete Volume in Dynamical Spacetimes","primary_cat":"hep-th","submitted_at":"2026-04-17T06:11:41+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Gauss-Bonnet corrections to the complete volume proposal introduce a competition effect in static black holes while preserving momentum-governed growth rates and logarithmic scrambling times in dynamical Vaidya geometries.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"−6d2 + 3d+ 4 \u0001 k i .(B.9) References [1] J. M. Maldacena, \"The LargeNlimit of superconformal field theories and supergravity,\" Adv. Theor. Math. Phys.2(1998), 231-252 [arXiv:hep-th/9711200 [hep-th]]. [2] S. Ryu and T. Takayanagi, \"Holographic derivation of entanglement entropy from AdS/CFT,\" Phys. Rev. Lett.96(2006), 181602 [arXiv:hep-th/0603001 [hep-th]]. [3] S. Ryu and T. Takayanagi, \"Aspects of Holographic Entanglement Entropy,\" JHEP08 (2006), 045 [arXiv:hep-th/0605073 [hep-th]]. [4] V. E. Hubeny, M. Rangamani and T. Takayanagi, \"A Covariant holographic entanglement entropy proposal,\" JHEP07(2007), 062 [arXiv:0705.0016 [hep-th]]. [5] M. Rangamani and T. Takayanagi, \"Holographic Entanglement Entropy,\" Lect."},{"citing_arxiv_id":"2604.13261","ref_index":2,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"Structural Obstruction to Replica Symmetry Breaking for Multi-Entropy in Random Tensor Networks","primary_cat":"hep-th","submitted_at":"2026-04-14T19:52:03+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"Multi-entropy exhibits a structural obstruction to replica symmetry breaking in random tensor networks due to incompatible boundary permutations in the replica hypercube, unlike entanglement negativity.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"(1342) 3 2 2 2 2 2 2 1 1 3 3 3 1 1 1 1 3 3 2 2 2 0 2 2 (1423) 3 2 2 2 2 2 2 3 1 1 1 3 3 1 3 1 1 3 2 2 2 2 0 2 (1432) 3 2 2 2 2 2 2 1 3 1 3 3 3 3 1 1 1 1 2 2 2 2 2 0 T able 2: Cayley distance table forS 4 used in the main text. - 37 - References [1] S. Ryu and T. Takayanagi,Holographic derivation of entanglement entropy from AdS/CFT, Phys. Rev. Lett.96(2006) 181602, [hep-th/0603001]. [2] S. Ryu and T. Takayanagi,Aspects of Holographic Entanglement Entropy,JHEP08(2006) 045, [hep-th/0605073]. [3] V. E. Hubeny, M. Rangamani and T. Takayanagi,A Covariant holographic entanglement entropy proposal,JHEP07(2007) 062, [0705.0016]. [4] P. Hayden, S. Nezami, X.-L. Qi, N. Thomas, M. Walter and Z. Yang,Holographic duality from random tensor networks,JHEP11(2016) 009, [1601."},{"citing_arxiv_id":"2604.10583","ref_index":2,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"The Junction Law for Multipartite Entanglement in Confining Holographic Backgrounds","primary_cat":"hep-th","submitted_at":"2026-04-12T11:02:36+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"The junction law for multipartite entanglement persists in confining holographic backgrounds, but phase structure and GM short-distance scaling (L^{-4}, L^{-2}, or L^{-2}(log L)^2) are background-dependent.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"obtained if one artificially restricts the candidates to the fully connectedYsaddle and the fully disconnectedWsaddle. The inclusion of the mixed saddle smooths the spike and, in sufficiently asymmetric cases, produces an intermediate plateau. - 59 - References [1] S. Ryu and T. Takayanagi,Holographic derivation of entanglement entropy from AdS/CFT, Phys. Rev. Lett.96(2006) 181602 [hep-th/0603001]. [2] S. Ryu and T. Takayanagi,Aspects of Holographic Entanglement Entropy,JHEP08(2006) 045 [hep-th/0605073]. [3] V.E. Hubeny, M. Rangamani and T. Takayanagi,A Covariant holographic entanglement entropy proposal,JHEP07(2007) 062 [0705.0016]. [4] I.R. Klebanov, D. Kutasov and A. Murugan,Entanglement as a probe of confinement,Nucl. Phys. B796(2008) 274 [0709."},{"citing_arxiv_id":"2604.05970","ref_index":2,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"Holographic entanglement entropy, Wilson loops, and neural networks","primary_cat":"hep-th","submitted_at":"2026-04-07T15:04:04+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Neural networks reconstruct both spatial and timelike bulk metric components from strip entanglement entropy and Wilson loops with sub-0.2% accuracy in holographic models such as AdS-Schwarzschild and Gubser-Rocha.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2602.13694","ref_index":7,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Spherically symmetric black holes in Gravity from Entropy and spontaneous emission","primary_cat":"gr-qc","submitted_at":"2026-02-14T09:33:48+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"In the Gravity from Entropy framework, spherically symmetric black holes acquire r^{-4} corrections to Schwarzschild geometry, with large-mass evaporation at constant rate -β/24 and intermediate-mass loss following the classical Hawking M^{-2} scaling.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2602.06113","ref_index":101,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Deforming the Double-Scaled SYK & Reaching the Stretched Horizon From Finite Cutoff Holography","primary_cat":"hep-th","submitted_at":"2026-02-05T19:00:00+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Deformations of the double-scaled SYK model via finite-cutoff holography produce Krylov complexity as wormhole length and realize Susskind's stretched horizon proposal through targeted T² deformations in the high-energy spectrum.","context_count":1,"top_context_role":"method","top_context_polarity":"use_method","context_text":"2Krylov complexity in the semiclassical limit reproduces to bulk geodesic lengths [42, 58, 61, 91-96] in the bulk dual of the DSSYK model, which corresponds to an explicit realization of the volume=complexity (CV) conjecture [97]. 3Holographically, the entanglement entropy between the double-scaled algebras manifests in terms of a Ryu-Takayanagi (RT) [100, 101] formula (see e.g. [102-105] for reviews, and [106-108] for extensions). - 2 - satisfies the above properties. The motivation for the hyperfast properties and the infinite temperature limit comes from the fact that a surface at a finite radial distance in a gravitational spacetime experiences a Tolman temperature [15, 141-143] with a redshift factor which diverges when the surface is"},{"citing_arxiv_id":"2601.15736","ref_index":46,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Heavy holographic correlators in defect conformal field theories","primary_cat":"hep-th","submitted_at":"2026-01-22T08:04:17+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Holographic probe-brane calculations produce defect one- and two-point functions of heavy scalars that match OPE and BOE limits.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2601.06697","ref_index":241,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Lecture notes on strings in AdS$_3$ from the worldsheet and the AdS$_3$/CFT$_2$ duality","primary_cat":"hep-th","submitted_at":"2026-01-10T21:41:47+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":2.0,"formal_verification":"none","one_line_summary":"Lecture notes deliver a self-contained pedagogical overview of worldsheet strings in AdS3 with NSNS flux, summarizing 25 years of results with emphasis on spectrally flowed correlation functions.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2512.02156","ref_index":2,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Testing ER = EPR with Hydrogen","primary_cat":"quant-ph","submitted_at":"2025-12-01T19:36:54+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Field leakage into ER=EPR wormholes modifies hydrogen hyperfine splitting and may induce net charge, yielding constraints from existing precision data.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2511.16586","ref_index":2,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Toward a worldsheet theory of entanglement entropy","primary_cat":"hep-th","submitted_at":"2025-11-20T17:41:42+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"A new action for entanglement entropy in AdS3/CFT2 derives gravity equations, reduces to a string worldsheet, reproduces bit threads, and unifies several quantum gravity conjectures.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2511.03779","ref_index":2,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Cosmological Entanglement Entropy from the von Neumann Algebra of Double-Scaled SYK & Its Connection with Krylov Complexity","primary_cat":"hep-th","submitted_at":"2025-11-05T19:00:00+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Algebraic entanglement entropy from type II1 algebras in double-scaled SYK is matched via triple-scaling limits to Ryu-Takayanagi areas in (A)dS2, reproducing Bekenstein-Hawking and Gibbons-Hawking formulas for specific regions while depending on Krylov complexity of the Hartle-Hawking state.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"The orange solid curve corresponds toθ=π/2, while the solid lines represent a decrease in multiples of−0.3fromθ=π/2in descending order. Similar results are obtained for other values ofθ. In all cases the bound (F.20) is satisfied. References [1] S. Ryu and T. Takayanagi,Holographic derivation of entanglement entropy from AdS/CFT, Phys. Rev. Lett.96(2006) 181602 [hep-th/0603001]. [2] S. Ryu and T. Takayanagi,Aspects of Holographic Entanglement Entropy,JHEP08(2006) 045 [hep-th/0605073]. [3] V.E. Hubeny, M. Rangamani and T. Takayanagi,A Covariant holographic entanglement entropy proposal,JHEP07(2007) 062 [0705.0016]. [4] T. Faulkner, A. Lewkowycz and J. Maldacena,Quantum corrections to holographic entanglement entropy,JHEP11(2013) 074 [1307."},{"citing_arxiv_id":"2509.08209","ref_index":10,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Tripartite Correlation Signal from Multipartite Entanglement of Purification","primary_cat":"hep-th","submitted_at":"2025-09-10T00:43:36+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Δ^(3)_p is a non-negative signal detecting genuine tripartite entanglement, extended via the E_w = E_p conjecture to holographic systems in AdS3/CFT2.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2507.09171","ref_index":12,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Connecting boundary entropy and effective central charge at holographic interfaces","primary_cat":"hep-th","submitted_at":"2025-07-12T07:36:40+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Holographic models of interface CFTs connect the effective central charge in entanglement entropy to a limiting case of boundary entropy, while adding finite terms for non-crossing intervals to satisfy strong subadditivity.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2506.16164","ref_index":179,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"The Carrollian Kaleidoscope","primary_cat":"hep-th","submitted_at":"2025-06-19T09:33:44+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":1.0,"formal_verification":"none","one_line_summary":"A review summarizing Carrollian symmetries, CCFT constructions, and applications in AFS holography, Carroll hydrodynamics, and condensed matter phenomena such as fractons and flat bands.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2505.11553","ref_index":28,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Holographic entanglement entropy and complexity for the cosmological braneworld model","primary_cat":"hep-th","submitted_at":"2025-05-15T15:59:44+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":3.0,"formal_verification":"none","one_line_summary":"Time-dependent holographic entanglement entropy and complexity are computed perturbatively for braneworld FLRW universes with radiation, matter, and exotic matter by using time-dependent brane positions in black brane bulk geometries.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2412.18610","ref_index":20,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Crosscap Quenches and Entanglement Evolution","primary_cat":"hep-th","submitted_at":"2024-12-24T18:59:58+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Introduces crosscap quenches in CFTs and holographic models to derive universal entanglement entropy evolution, validated by numerics in spin systems.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2412.05484","ref_index":40,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Topological entanglement entropy meets holographic entropy inequalities","primary_cat":"quant-ph","submitted_at":"2024-12-07T01:06:51+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Derives conditions for TEE probes, generalizes cyclic and multi-information quantities, and verifies holographic entropy inequalities for gapped topological states.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"1907.08126","ref_index":29,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Lectures on entanglement entropy in field theory and holography","primary_cat":"hep-th","submitted_at":"2019-07-18T16:05:49+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":0.0,"formal_verification":"none","one_line_summary":"Lecture notes surveying entanglement entropy in QFT and holography, emphasizing physical aspects and the Ryu-Takayanagi formula.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"1906.08274","ref_index":2,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Entropy Variations and Light Ray Operators from Replica Defects","primary_cat":"hep-th","submitted_at":"2019-06-19T18:00:17+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Replica analysis shows QNEC saturation in interacting CFTs with twist gap because only the stress-tensor defect operator produces the contact term in the n to 1 limit.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"1905.08762","ref_index":11,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"The entropy of bulk quantum fields and the entanglement wedge of an evaporating black hole","primary_cat":"hep-th","submitted_at":"2019-05-21T17:27:30+00:00","verdict":"CONDITIONAL","verdict_confidence":"MODERATE","novelty_score":7.0,"formal_verification":"none","one_line_summary":"In a 2d evaporating black hole model, large boosts create O(1/G_N) gradients in bulk entropy that move the quantum extremal surface, causing the generalized entropy to follow unitary expectations with information disappearing after a scrambling time and a phase transition at the Page time.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null}],"limit":50,"offset":0}