{"total":23,"items":[{"citing_arxiv_id":"2606.26163","ref_index":128,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Large-$N$ Carrollian Thermodynamics from AdS Black-Hole Phase-Space Contractions","primary_cat":"hep-th","submitted_at":"2026-06-24T06:24:41+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Finite Carrollian black-hole thermodynamics arises as a double-scaled low-temperature large-N ensemble in AdS/CFT, with the boundary Brown-York stress tensor reproducing the contracted bulk Hamiltonian and first law.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2606.19112","ref_index":13,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Post-Carroll Algebra, Conformal Extensions, and Field Theories","primary_cat":"hep-th","submitted_at":"2026-06-17T14:27:27+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Defines post-Carroll algebra allowing central charges in higher dimensions, constructs its conformal extension and the Carroll-Schrödinger algebra matching prior theory, and derives two-point functions in post-Carrollian CFTs with electric/magnetic sectors in 1+1 dimensions.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2606.06326","ref_index":30,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Spinning bulk-to-boundary correlators in the massless theories with Poincar\\'e symmetry","primary_cat":"hep-th","submitted_at":"2026-06-04T16:00:39+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Bulk-to-boundary correlators for spin-s operators in Poincaré-invariant massless theories are linear superpositions of ISO(2)-fixed tensor structures mapped to non-crossing double-line diagrams that are tensor products of loop diagrams, extrapolating to type Ib multiplets in CCFT generated by Wigner","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2606.02722","ref_index":30,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Asymptotically-FLRW$_3$ spacetimes","primary_cat":"gr-qc","submitted_at":"2026-06-01T18:00:07+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"Introduces asymptotically-FLRW3 spacetimes whose asymptotic symmetry group is the one-parameter family BMS3^k, fully characterizes the scalar-field solution space, identifies covariant mass/angular-momentum aspects and news via vacuum orbits, and exhibits exactly conserved non-linear Newman-Penrose ","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"(2017) 065022, [1705.01027]. [27] L. Donnay, S. Pasterski and A. Puhm,Asymptotic Symmetries and Celestial CFT,JHEP 09(2020) 176, [2005.08990]. [28] S. Pasterski, M. Pate and A.-M. Raclariu,Celestial Holography, in2022 Snowmass Summer 55 Study, 11, 2021.2111.11392. [29] S. Pasterski,Lectures on celestial amplitudes,Eur. Phys. J. C81(2021) 1062, [2108.04801]. [30] A.-M. Raclariu,Lectures on Celestial Holography, [2107.02075]. [31] A. Bagchi, R. Basu, A. Kakkar and A. Mehra,Flat Holography: Aspects of the dual field theory,JHEP12(2016) 147, [1609.06203]. [32] L. Ciambelli, C. Marteau, A. C. Petkou, P. M. Petropoulos and K. Siampos,Flat holography and Carrollian fluids,JHEP07(2018) 165, [1802.06809]. [33] L. Donnay, A."},{"citing_arxiv_id":"2605.16641","ref_index":40,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"On bulk reconstruction in Lorentzian AdS and its flat space limit","primary_cat":"hep-th","submitted_at":"2026-05-15T21:31:11+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Constructs bulk scalar field representations in Lorentzian AdS4 from boundary primaries via time-ordered propagators and derives their flat-space limits to plane-wave or Carrollian bases.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"12, (2017) 121601, arXiv:1609.00282 [hep-th] . 77 [38] S. Pasterski and S.-H. Shao, \"Conformal basis for flat space amplitudes,\" Phys. Rev. D 96 no. 6, (2017) 065022, arXiv:1705.01027 [hep-th] . [39] A. Bagchi, \"Correspondence between Asymptotically Flat Spacetimes and Nonrelativistic Conformal Field Theories,\" Phys. Rev. Lett. 105 (2010) 171601, arXiv:1006.3354 [hep-th] . [40] A. Bagchi, R. Basu, A. Kakkar, and A. Mehra, \"Flat Holography: Aspects of the dual field theory,\" JHEP 12 (2016) 147, arXiv:1609.06203 [hep-th] . [41] L. Donnay, A. Fiorucci, Y. Herfray, and R. Ruzziconi, \"Bridging Carrollian and celestial holography,\" Phys. Rev. D 107 no. 12, (2023) 126027, arXiv:2212.12553 [hep-th] . [42] A. Guevara, E. Himwich, M."},{"citing_arxiv_id":"2605.15269","ref_index":4,"ref_count":2,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Kerroll black holes","primary_cat":"hep-th","submitted_at":"2026-05-14T18:00:01+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Rotating black holes are constructed in magnetic Carroll gravity, including an intrinsically Carrollian dressed solution and a Kerroll black hole from an odd-power c-expansion of GR, with conserved charges computed.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2605.06786","ref_index":15,"ref_count":2,"confidence":0.9,"is_internal_anchor":false,"paper_title":"Kinetic Theory of Carroll Hydrodynamics","primary_cat":"hep-th","submitted_at":"2026-05-07T18:00:04+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"A microscopic derivation of Carrollian fluid equations from a statistical mechanics of interacting instantonic branes, plus initial elements of Carrollian thermodynamics.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"[12] A.Argandoña,A.GuijosaandS.Patiño-López,De Sitter Holography and Carrollian brane theories, JHEP10(2025)133,2507.06147 [13] C.Duval,G.W.GibbonsandP.A.Horvathy,Conformal Carroll groups,J.Phys.A47(2014),no.33, 335204,1403.4213 [14] C.Duval,G.W.GibbonsandP.A.Horvathy,Conformal Carroll groups and BMS symmetry,Class. Quant.Grav.31(2014)092001,1402.5894 [15] A.Bagchi,R.Basu,A.KakkarandA.Mehra,Flat Holography: Aspects of the dual ﬁeld theory,JHEP12 (2016)147,1609.06203 [16] R.F.Penna,BMS 3 invariant ﬂuid dynamics at null inﬁnity,Class.Quant.Grav.35(2018),no.4, 044002,1708.08470 [17] L.CiambelliandC.Marteau,Carrollian conservation laws and Ricci-ﬂat gravity,Class.Quant.Grav. 36(2019),no.8,085004,1810.11037"},{"citing_arxiv_id":"2604.22612","ref_index":10,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"Generalized Entanglement Wedges and the Connected Wedge Theorem","primary_cat":"hep-th","submitted_at":"2026-04-24T14:36:58+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Generalized entanglement wedges rephrase the connected wedge theorem in bulk entropy terms, yielding mutual information bounds and a scattering-to-connected-wedge implication that extends to flat spacetimes.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"Song and Q. Wen,Entanglement Entropy in Flat Holography, JHEP07(2017) 142 [1706.07552]. [8] J. Caminiti, R. C. Myers and S. Pasterski,Swing Surfaces in AdS CFT Part I: Representations and Saddles,to appear(2026) . [9] C. Duval, G. W. Gibbons and P. A. Horvathy,Conformal Carroll groups and BMS symmetry,Class. Quant. Grav.31(2014) 092001 [1402.5894]. - 42 - [10] A. Bagchi, R. Basu, A. Kakkar and A. Mehra,Flat Holography: Aspects of the dual field theory,JHEP12(2016) 147 [1609.06203]. [11] L. Ciambelli, C. Marteau, A. C. Petkou, P. M. Petropoulos and K. Siampos,Flat holography and Carrollian fluids,JHEP07(2018) 165 [1802.06809]. [12] G. Comp` ere, A. Fiorucci and R. Ruzziconi,TheΛ-BMS 4 group of dS 4 and new"},{"citing_arxiv_id":"2604.22582","ref_index":9,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"Carrollian ABJM: Fermions and Supersymmetry","primary_cat":"hep-th","submitted_at":"2026-04-24T14:14:39+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"The c to zero limit of ABJM theory produces a Carrollian superconformal theory with extended BMS4 symmetry using Carrollian Dirac matrices.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"Raclariu, Lectures on Celestial Holography,2107.02075. - 31 - [7] A. Bagchi, Correspondence between Asymptotically Flat Spacetimes and Nonrelativistic Conformal Field Theories, Phys. Rev. Lett.105(2010) 171601 [1006.3354]. [8] A. Bagchi and R. Fareghbal, BMS/GCA Redux: Towards Flatspace Holography from Non-Relativistic Symmetries, JHEP 10(2012) 092 [1203.5795]. [9] A. Bagchi, R. Basu, A. Kakkar and A. Mehra, Flat Holography: Aspects of the dual field theory, JHEP12(2016) 147 [1609.06203]. [10] A. Bagchi, A. Banerjee, P. Dhivakar, S. Mondal and A. Shukla, The Carrollian Kaleidoscope, 2506.16164. [11] K. Nguyen, Lectures on Carrollian Holography,2511.10162. [12] R. Ruzziconi, Carrollian Physics and Holography,2602."},{"citing_arxiv_id":"2604.14301","ref_index":14,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"Carroll fermions, expansions and the lightcone","primary_cat":"hep-th","submitted_at":"2026-04-15T18:00:45+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Carrollian fermion actions are obtained from relativistic Dirac theory via c-expansion and connected to light-cone dynamics through co-dimension one Carroll subalgebras in the Poincaré algebra.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"Discrete Light Cone Quantization and connections to M-theory [40-42]. 1.1 Carrollian field theories, fermions and expansions Given the wide-ranging applications, the development of classical and quantum field theo- ries with Carrollian symmetries is a crucial task. In the early years of their development, Carrollian symmetries were investigated at the level of equations of motion of the classical theories [14, 43, 44]. This later progressed to a more detailed study of scalar theories [45- 47] and spin-1 gauge fields [45-47]. Carroll fermions were not investigated in detail until [28, 48, 49] 1. There have since been some more work in this direction [52, 53]. However, some fundamental issues remained and we will address some of these in our paper. As we will go on to explain in detail below, a defining feature of fermions in a Carroll"},{"citing_arxiv_id":"2604.08498","ref_index":8,"ref_count":4,"confidence":0.98,"is_internal_anchor":true,"paper_title":"On Carrollian Loop Amplitudes for Gauge Theory and Gravity","primary_cat":"hep-th","submitted_at":"2026-04-09T17:42:28+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Loop-level Carrollian amplitudes in N=4 SYM and N=8 supergravity are differential operators on tree-level versions, with logarithmic eikonal behavior and IR-safe factorization via natural splitting.","context_count":2,"top_context_role":"background","top_context_polarity":"background","context_text":"have been shown to satisfy the Ward identities associated with global conformal Carrollian 1A Carroll manifold is a smooth manifold equipped with a degenerate (corank-1) 'metric' and a vector field in its kernel. Carrollian field theories are field theories defined on such manifolds and can often be realized as 'c→0limits' [6, 7] of relativistic field theories [8, 9]. - 1 - symmetries [1, 10-15]. As a result, lower point Carrollian amplitudes functionally resemble correlation functions of a Carrollian CFT. There are now multiple prescriptions [1, 10-15] that build upon this kinematic state- ment and posit full-fledgeddynamicalequivalences between bulk scattering amplitudes (in the Carrollian basis) and correlation functions of a putative dual Carrollian theory."},{"citing_arxiv_id":"2603.28269","ref_index":24,"ref_count":1,"confidence":0.9,"is_internal_anchor":false,"paper_title":"A Twisted Origin for Magnetic Carroll Supersymmetry","primary_cat":"hep-th","submitted_at":"2026-03-30T10:53:00+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"Magnetic Carroll supersymmetry descends from a twisted relativistic parent rather than naive contraction, realized in 3D N=2 with vector multiplet action whose conformal extension matches global super-BMS4.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"06302 6 [gr-qc]. [22] J. Biˇ c' ak, D. Kubizˇ n' ak, and T. R. Perche, \"Migrating Carrollian particles on magnetized black hole horizons,\" Phys. Rev. D107no. 10, (2023) 104014, arXiv:2302.11639 [gr-qc]. [23] A. Bagchi, R. Basu, A. Kakkar, and A. Mehra, \"Flat Holography: Aspects of the dual field theory,\"JHEP 12(2016) 147,arXiv:1609.06203 [hep-th]. [24] L. Donnay, A. Fiorucci, Y. Herfray, and R. Ruzziconi, \"Carrollian Perspective on Celestial Holography,\"Phys. Rev. Lett.129no. 7, (2022) 071602,arXiv:2202.04702 [hep-th]. [25] A. Bagchi, S. Banerjee, R. Basu, and S. Dutta, \"Scattering Amplitudes: Celestial and Carrollian,\" Phys. Rev. Lett.128no. 24, (2022) 241601, arXiv:2202.08438 [hep-th]. [26] L."},{"citing_arxiv_id":"2603.17045","ref_index":14,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"The gravitational S-matrix from the path integral: asymptotic symmetries and soft theorems","primary_cat":"hep-th","submitted_at":"2026-03-17T18:28:46+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"A path integral with asymptotic boundary conditions produces the gravitational S-matrix and derives soft graviton theorems from extended BMS symmetry Ward identities.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2603.11993","ref_index":51,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"More on Bulk Local State Reconstruction in Flat/Carr CFT","primary_cat":"hep-th","submitted_at":"2026-03-12T14:44:15+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":5.0,"formal_verification":"none","one_line_summary":"Bulk local states are built in flat holography via induced representations, with a dual basis resolving 3D bra-ket scaling issues and a tilde basis enabling explicit constructions in higher dimensions that recover the massive propagator.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2512.09018","ref_index":13,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"From Asymptotically Flat Gravity to Finite Causal Diamonds","primary_cat":"hep-th","submitted_at":"2025-12-09T19:00:00+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"The soft sector phase space of asymptotically flat gravity equals the phase space of radial size fluctuations of a finite causal diamond in flat spacetime.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2510.16104","ref_index":48,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Strings near BTZ black holes: A Carrollian Chronicle","primary_cat":"hep-th","submitted_at":"2025-10-17T18:00:02+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"The paper classifies families of closed bosonic string solutions in the near-horizon non-extremal BTZ spacetime and identifies novel features via string-Carroll expansion.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2510.10519","ref_index":9,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Integrability in Three-Dimensional Gravity: Eigenfunction-Forced KdV Flows","primary_cat":"hep-th","submitted_at":"2025-10-12T09:35:54+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Derives forced KdV equation from Chern-Simons 3D gravity with chiral boundaries, with forcing set by Schrödinger eigenfunctions, and solves reflectionless and radiative sectors via inverse scattering.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2508.03236","ref_index":79,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Timelike Liouville theory and AdS$_3$ gravity at finite cutoff","primary_cat":"hep-th","submitted_at":"2025-08-05T09:05:10+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Proposes that AdS3 gravity at finite cutoff is dual to a CFT2 coupled to timelike Liouville theory deformed by a marginal operator, with checks via semiclassical partition functions and EOM matching.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2508.01446","ref_index":87,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Radiation in Fluid/Gravity and the Flat Limit","primary_cat":"hep-th","submitted_at":"2025-08-02T17:28:33+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Establishes a holographic link between bulk gravitational radiation and dissipative corrections plus entropy production in boundary fluids, then constructs Carrollian analogues and celestial observables in the flat limit.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"flat limit, since it is naturally formulated in a null gauge. This provided a road toward the flat space fluid/gravity correspondence. In the latter, the boundary fluid is hosted at null infinity, and is an unusual fluid dubbed Carrollian fluid [114-125]. The latter provides the expected macroscopic description of the putative boundary Carrollian field theory [87, 101, 102, 106, 126-137]. This approach complements the celestial holography program in flat-space holography, which is based on understanding the elusive celestial CFT living on the codimension-2 celestial sphere [138-146] (see [145, 147, 148] for reviews and further references). Little is known about the quantum aspects of Carrollian field theories,6 and"},{"citing_arxiv_id":"2506.16164","ref_index":6,"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":1,"top_context_role":"background","top_context_polarity":"background","context_text":"We will discuss this at length in Sec. 7.5. More concrete ways to take contractions of relativistic field theories came into being with [22], using a directly opposite formalism from the original Galilean electrodynamics discus- sion in [55]. In the beginning of the current resurgence of Carrollian physics, limits of the equations of motion were considered [6, 56] and the theories were shown to possess infi- nite Carrollian (conformal) symmetries following similar considerations in Galilean theories [57-59], before the first actions were written down in [60, 61]. We will discuss in this work the more modern ways to approach of constructing Carrollian theories below, both intrinsically and from limits. 6There is also a third one, which is the combination of electric and magnetic."},{"citing_arxiv_id":"2503.15607","ref_index":1,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Operator Product Expansion in Carrollian CFT","primary_cat":"hep-th","submitted_at":"2025-03-19T18:00:04+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Constructs Carrollian OPEs that govern short-distance behavior, extends representation theory for composites, and classifies 2-, 3-, and 4-point correlators/amplitudes under Carrollian symmetry.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2311.10565","ref_index":107,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Worldsheet Formalism for Decoupling Limits in String Theory","primary_cat":"hep-th","submitted_at":"2023-11-17T14:59:43+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Develops worldsheet sigma model for fundamental strings in critical type IIA limit showing nodal singularities and derives T-duality web unifying decoupling limits including ambitwistor and Carrollian strings.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"B 665 (2003) 545-593, [ hep-th/0303006]. [105] S. Pasterski, S.-H. Shao and A. Strominger, Flat space amplitudes and conformal symmetry of the celestial sphere, Phys. Rev. D 96 (2017) 065026, [ 1701.00049]. - 81 - [106] C. Dappiaggi, V. Moretti and N. Pinamonti, Rigorous steps towards holography in asymptotically flat spacetimes , Rev. Math. Phys. 18 (2006) 349-416, [ gr-qc/0506069]. [107] A. Bagchi, R. Basu, A. Kakkar and A. Mehra, Flat holography: aspects of the dual field theory , JHEP 12 (2016) 147, [ 1609.06203]. [108] L. Donnay, A. Fiorucci, Y. Herfray and R. Ruzziconi, Carrollian Perspective on Celestial Holography, Phys. Rev. Lett. 129 (2022) 071602, [ 2202.04702]. [109] B. Cardona, J. Gomis and J. M. Pons, Dynamics of Carroll strings , JHEP 07 (2016) 050,"},{"citing_arxiv_id":"2202.04702","ref_index":19,"ref_count":1,"confidence":0.98,"is_internal_anchor":true,"paper_title":"Carrollian Perspective on Celestial Holography","primary_cat":"hep-th","submitted_at":"2022-02-09T19:52:15+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"A 3d sourced conformal Carrollian field theory is proposed to holographically capture 4d flat gravity kinematics, with Ward identities matching 2d celestial CFT after relating operators.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null}],"limit":50,"offset":0}