Your search keyword '"Grumiller, Daniel"' showing total 424 results

1. Carroll dilaton supergravity in two dimensions

Author

Grumiller, Daniel, Montecchio, Luciano, and Nejati, Mohaddese Shams

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We construct and discuss generic N=1 and N=2 Carroll dilaton supergravity in two dimensions. We apply our general results to the supersymmetric Carroll-Jackiw-Teitelboim model, including a discussion of specific boundary conditions. For N=2 Carroll dilaton supergravity, we find two versions, dubbed "democratic" and "despotic"., Comment: 33pp

Published

2024

2. Boundary Carrollian CFTs and Open Null Strings

Author

Bagchi, Arjun, Chakraborty, Pronoy, Chakrabortty, Shankhadeep, Fredenhagen, Stefan, Grumiller, Daniel, and Pandit, Priyadarshini

Subjects

High Energy Physics - Theory

Abstract

We consider Carrollian conformal field theories in two dimensions and construct the boundary Carrollian conformal algebra (BCCA), opening up innumerable possibilities for further studies, given the growing relevance of Carrollian symmetries. We prove that the BCCA emerges by contracting a single copy of the Virasoro algebra. As an application, we construct, for the first time, open null strings and show that, for Dirichlet boundary conditions, we recover the BCCA as the algebra of constraints. We finally reconstruct our string results by taking the null limit of tensile open strings., Comment: 7pp, 1fig

Published

2024

3. Carroll swiftons

Author

Ecker, Florian, Grumiller, Daniel, Henneaux, Marc, and Salgado-Rebolledo, Patricio

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We construct Carroll-invariant theories with fields propagating outside the Carroll lightcone, i.e., at a speed strictly greater than zero (`Carroll swiftons'). We first consider models in flat Carroll spacetime in general dimensions, where we present scalar and vector Carroll swifton field theories. We then turn to the coupling to gravity and achieve in particular in two dimensions a Carroll invariant scalar swifton by coupling it suitably to Carroll dilaton gravity. Its backreaction on the geometry generates dynamical torsion., Comment: 8pp, v2: added refs. and extended acknowledgments

Published

2024

4. Carroll Hawking effect

Author

Aggarwal, Ankit, Ecker, Florian, Grumiller, Daniel, and Vassilevich, Dmitri

Subjects

High Energy Physics - Theory

Abstract

Carroll black holes with an associated Carroll temperature were introduced recently. So far, it is unclear if they exhibit a Hawking-like effect. To solve this, we study scalar fields on Carroll black hole backgrounds. Inspired by anomaly methods, we derive a Hawking-like energy-momentum tensor compatible with the Carroll temperature and the Stefan-Boltzmann law. Key steps in our derivation are the finiteness of energy at the Carroll extremal surface and compatibility with the Carroll Ward identities, thereby eliminating, respectively, the Carroll-analogs of the Boulware and Unruh vacua., Comment: 5 pages, v2: added refs

Published

2024

5. One-loop partition function of gravity with leaky boundary conditions

Author

Grumiller, Daniel, Ruzziconi, Romain, and Zwikel, Céline

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Leaky boundary conditions in asymptotically AdS spacetimes are relevant to discuss black hole evaporation and the evolution of the Page curve via the island formula. We explore the consequences of leaky boundary conditions on the one-loop partition function of gravity. We focus on JT gravity minimally coupled to a scalar field whose normalizable and non-normalizable modes are both turned on, allowing for leakiness through the AdS boundary. Classically, this yields a flux-balance law relating the scalar news to the time derivative of the mass. Semi-classically, we argue that the usual diffeomorphism-invariant measure is ill-defined, suggesting that the area-non-preserving diffeomorphisms are broken at one loop. We calculate the associated anomaly and its implication on the gravitational Gauss law. Finally, we generalize our arguments to higher dimensions and dS., Comment: 35pp, 2figs

Published

2023

6. Carroll geodesics

Author

Ciambelli, Luca and Grumiller, Daniel

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Using effective field theory methods, we derive the Carrollian analog of the geodesic action. We find that it contains both `electric' and `magnetic' contributions that are in general coupled to each other. The equations of motion descending from this action are the Carrollian pendant of geodesics, allowing surprisingly rich dynamics. As an example, we derive Carrollian geodesics on a Carroll-Schwarzschild background and discover an effective potential similar to the one appearing in geodesics on Schwarzschild backgrounds. However, the Newton term in the potential turns out to depend on the Carroll particle's energy. As a consequence, there is only one circular orbit localized at the Carroll extremal surface, and this orbit is unstable. For large impact parameters, the deflection angle is half the value of the general relativistic light-bending result. For impact parameters slightly bigger than the Schwarzschild radius, orbits wind around the Carroll extremal surface. For small impact parameters, geodesics get reflected by the Carroll black hole, which acts as a perfect mirror., Comment: 7pp, 2figs, v2: added refs

Published

2023

7. Carrollian c-functions and flat space holographic RG flows in BMS3/CCFT2

Author

Grumiller, Daniel and Riegler, Max

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We discuss c-functions and their holographic counterpart for two-dimensional field theories with Carrollian conformal fixed points in the UV and the IR. Specifically, we construct asymptotically flat domain wall solutions of three-dimensional Einstein-dilaton gravity that model holographic RG flows between BMS3 invariant UV and IR fixed points. We prove three theorems for such flows: 1. for every holographic RG flow in AdS3, there is a corresponding one in flat space, 2. the BMS central charge in the UV cannot be smaller than in the IR, and 3. the UV/IR ratio of Virasoro central charges is identical to the UV/IR ratio of corresponding BMS central charges. Finally, we tentatively propose a Casini-Huerta-like c-functions for BMS3-invariant quantum field theories, inspired by the AdS3/CFT2 relation between monotonicity of the c-function and the quantum null energy condition., Comment: 10pp, 3figs; v2: included important ref. and added note

Published

2023

8. Carroll geodesics

Author

Ciambelli, Luca and Grumiller, Daniel

Published

2024

9. Carroll black holes

Author

Ecker, Florian, Grumiller, Daniel, Hartong, Jelle, Pérez, Alfredo, Prohazka, Stefan, and Troncoso, Ricardo

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Despite the absence of a lightcone structure, some solutions of Carroll gravity show black hole-like behaviour. We define Carroll black holes as solutions of Carroll gravity that exhibit Carroll thermal properties and have a Carroll extremal surface, notions introduced in our work. The latter is a Carroll analogue of a Lorentzian extremal surface. As examples, we discuss the Carroll versions of Schwarzschild, Reissner-Nordstroem, and BTZ black holes and black hole solutions of generic 1+1 dimensional Carroll dilaton gravity, including Carroll JT and Carroll Witten black holes., Comment: 58pp, 7 figs; v2: extended sec. 8 ; v3: corrected typos

Published

2023

10. Logarithmic Celestial Conformal Field Theory

Author

Fiorucci, Adrien, Grumiller, Daniel, and Ruzziconi, Romain

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We argue that the celestial conformal field theory exhibits patterns of a logarithmic conformal field theory. We uncover a Jordan block structure involving the celestial stress tensor and its logarithmic partner, a composite operator built from the stress tensor and the Liouville field. Using a limiting process whose parameter corresponds to the infrared cut-off of gravity, we perform some basic consistency checks, particularly the calculation of two-point correlators, which reveals the expected logarithmic behavior. We comment on the vanishing value of the central charge in the celestial conformal field theory and explain how the logarithmic partner is relevant for its well-behavedness., Comment: 7 pages

Published

2023

11. Equivalences between 2D dilaton gravities, their asymptotic symmetries, and their holographic duals

Author

Ecker, Florian, Grumiller, Daniel, Valcárcel, Carlos, and Vassilevich, Dmitri

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Dilaton gravities in two dimensions can be formulated as particular Poisson sigma models. Target space diffeomorphisms map different models to each other and establish a one-to-one correspondence between their classical solutions. We obtain a general form of such diffeomorphisms in Lorentzian and Euclidean signatures and use them to extend known holographic results, including the Schwarzian action on the asymptotic boundary, from JT to a large class of dilaton gravity models., Comment: 53 pp, 4 figs; v2: 3 refs added, discussion section extended

Published

2023

12. Horizon Strings as 3d Black Hole Microstates

Author

Bagchi, Arjun, Grumiller, Daniel, and Sheikh-Jabbari, M. M.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We propose that 3d black holes are an ensemble of tensionless null string states. These microstates typically have non-zero winding. We evaluate their partition function in the limit of large excitation numbers and show that their combinatorics reproduces the Bekenstein-Hawking entropy and its semiclassical logarithmic corrections., Comment: 24pp; v2: considerably extended version with details and text added but otherwise same content, v3: converted to SciPost style

Published

2022

13. Disorder in AdS$_3$/CFT$_2$

Author

Dorband, Moritz, Grumiller, Daniel, Meyer, René, and Zhao, Suting

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We perturbatively study marginally relevant quenched disorder in AdS$_3$/CFT$_2$ to second order in the disorder strength. Using the Chern-Simons formulation of AdS$_3$ gravity for the Poincar\'e patch, we introduce disorder via the chemical potentials. We discuss the bulk and boundary properties resulting from the disorder averaged metric. The disorder generates a small mass and angular momentum. In the bulk and the boundary, we find unphysical features due to the disorder average. Motivated by these features, we propose a Poincar\'e-Lindstedt-inspired resummation method. We discuss how this method enables us to remove all of the unphysical features and compare with other approaches to averaging., Comment: 29 pages, v2: citations added, v3/v4: added further discussion and references, v5: added small clarifications, v6: added new section 5 and small clarifications, v7: extended section 5

Published

2022

14. Minkowski and (A)dS ground states in general 2d dilaton gravity

Author

Grumiller, Daniel, Laihartinger, Martin, and Ruzziconi, Romain

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We reorganize the derivative expansion of general (power-counting non-renormalizable) 2d dilaton gravity such that the mass function is integrable. As an example, we consider a three-parameter family of models and provide conditions on the parameters such that the ground state is either Minkowski, Rindler, or (A)dS., Comment: 13pp, proceedings contribution to MATRIX Event "2D Supersymmetric Theories and Related Topics"

Published

2022

15. dS$\boldsymbol{_2}$ as excitation of AdS$\boldsymbol{_2}$

Author

Ecker, Florian, Grumiller, Daniel, and McNees, Robert

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We introduce a family of 2D dilaton gravity models with state-dependent constant curvature so that dS$_2$ emerges as an excitation of AdS$_2$. Curiously, the strong coupling region corresponds to the asymptotic region geometrically. Apart from these key differences, many features resemble the Almheiri--Polchinski model. We discuss perturbative and non-perturbative thermodynamical stability, bubble nucleation through matter shockwaves, and semiclassical backreaction effects. In some of these models, we find that low temperatures are dominated by AdS$_2$ but high temperatures are dominated by dS$_2$, concurrent with a recent proposal by Susskind., Comment: 40 pages plus appendices, v2: added 2 refs and extended discussion in sec 6, v3: added ref and a comment in sec 4

Published

2022

16. Carrollian superconformal theories and super BMS

Author

Bagchi, Arjun, Grumiller, Daniel, and Nandi, Poulami

Subjects

High Energy Physics - Theory

Abstract

We investigate the supersymmetric versions of Bondi-Metzner-Sachs or, equivalently, conformal Carroll symmetry in boundary dimensions $d>3$, with applications of flat space holography in mind. We identify the contraction of the relativistic symmetry relevant for our purposes and construct a finite-dimensional Carrollian superconformal algebra (CSA) before proposing an infinite-dimensional lift. We provide the superspace formulation for $\mathcal{N}=1$ CSA and work towards an understanding of the representation theory of the algebra. We conclude with some aspects of $\mathcal{N}>1$ CSA., Comment: 30 pages + 4 appendices, v2: references added, accepted for publication in JHEP

Published

2022

17. Generalized dilaton gravity in 2d

Author

Grumiller, Daniel, Ruzziconi, Romain, and Zwikel, Céline

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Generalized dilaton gravity in 2d is the most general consistent deformation of the Jackiw-Teitelboim model that maintains local Lorentz invariance. The action is generically not power-counting renormalizable, thus going beyond the class of models typically studied. Nevertheless, all these models are exactly soluble. We focus on a subclass of dilaton scale invariant models. Within this subclass, we identify a 3-parameter family of models that describe black holes asymptoting to AdS2 in the UV and to dS2 in the IR. Since these models could be interesting for holography, we address thermodynamics and boundary issues, including boundary charges, asymptotic symmetries and holographic renormalization., Comment: 35 pp, 5 figs; v2: added refs. and item in sec. 7; v3 added refs. and appendix

Published

2021

18. One-loop partition function of gravity with leaky boundary conditions

Author

Grumiller, Daniel, Ruzziconi, Romain, and Zwikel, Céline

Published

2024

19. Non-Lorentzian Chaos and Cosmological Holography

Author

Bagchi, Arjun, Chakrabortty, Shankhadeep, Grumiller, Daniel, Radhakrishnan, Bharathkumar, Riegler, Max, and Sinha, Aditya

Subjects

High Energy Physics - Theory

Abstract

We study chaos in non-Lorentzian field theories, specifically Galilean and Carrollian conformal field theories in two dimensions. In a large central charge limit, we find that the Lyapunov exponent saturates the bound on chaos, conjectured originally for relativistic field theories. We recover the same Lyapunov exponent holographically by a shock-wave calculation in three-dimensional flat space cosmologies, providing further evidence for flat space holography., Comment: 5 pages, 1 figure

Published

2021

20. Limits of JT gravity

Author

Grumiller, Daniel, Hartong, Jelle, Prohazka, Stefan, and Salzer, Jakob

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We construct various limits of JT gravity, including Newton-Cartan and Carrollian versions of dilaton gravity in two dimensions as well as a theory on the three-dimensional light cone. In the BF formulation our boundary conditions relate boundary connection with boundary scalar, yielding as boundary action the particle action on a group manifold or some Hamiltonian reduction thereof. After recovering in our formulation the Schwarzian for JT, we show that AdS-Carroll gravity yields a twisted warped boundary action. We comment on numerous applications and generalizations., Comment: 41 pages, 3 figures, 1 table; v2: Matches published version + Footnote 11; v3: Corrected typo in Carrollian/Galilean generalized dilaton potential

Published

2020

21. Universal flow equations and chaos bound saturation in 2d dilaton gravity

Author

Grumiller, Daniel and McNees, Robert

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We show that several features of the Jackiw-Teitelboim model are in fact universal properties of two-dimensional Maxwell-dilaton gravity theories with a broad class of asymptotics. These theories satisfy a flow equation with the structure of a dimensionally reduced TTbar deformation, and exhibit chaotic behavior signaled by a maximal Lyapunov exponent. One consequence of our results is a no-go theorem for smooth flows from an asymptotically AdS2 region to a de Sitter fixed point., Comment: 21pp, 2figs, v2: added remarks in sections 4.3 and 6 and two refs, v3: added final paragraph in conclusions

Published

2020

22. Uniformization of Entanglement Entropy in Holographic Warped Conformal Field Theories

Author

Detournay, Stéphane, Grumiller, Daniel, Riegler, Max, and Vandermiers, Quentin

Subjects

High Energy Physics - Theory

Abstract

Using a uniformization map we determine the holographic entanglement entropy for states of a Warped Conformal Field Theory dual to a generic vacuum metric in AdS$_3$ gravity with Comp\`ere--Song--Strominger boundary conditions. We point out how that expression could lead to inequalities that can be interpreted as quantum energy conditions for Warped Conformal Field Theories., Comment: 5 pages

Published

2020

23. Flat space holography and complex SYK

Author

Afshar, Hamid, Gonzalez, Hernan, Grumiller, Daniel, and Vassilevich, Dmitri

Subjects

High Energy Physics - Theory, Condensed Matter - Strongly Correlated Electrons, General Relativity and Quantum Cosmology

Abstract

We provide the first steps towards a flat space holographic correspondence in two bulk spacetime dimensions. The gravity side is described by a conformally transformed version of the matterless Callan-Giddings-Harvey-Strominger model. The field theory side follows from the complex Sachdev-Ye-Kitaev model in the limit of large specific heat and vanishing compressibility. We derive the boundary action analogous to the Schwarzian as the key link between gravity and field theory sides and show that it coincides with a geometric action discovered recently by one of us, see 1908.08089., Comment: 8pp, v2: added ref

Published

2019

24. Spacetime structure near generic horizons and soft hair

Author

Grumiller, Daniel, Pérez, Alfredo, Sheikh-Jabbari, M. M., Troncoso, Ricardo, and Zwikel, Céline

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We explore the spacetime structure near non-extremal horizons in any spacetime dimension greater than two and discover a wealth of novel results: 1. Different boundary conditions are specified by a functional of the dynamical variables, describing inequivalent interactions at the horizon with a thermal bath. 2. The near horizon algebra of a set of boundary conditions, labeled by a parameter $s$, is given by the semi-direct sum of diffeomorphisms at the horizon with "spin-$s$ supertranslations". For $s=1$ we obtain the first explicit near horizon realization of the Bondi-Metzner-Sachs algebra. 3. For another choice, we find a non-linear extension of the Heisenberg algebra, generalizing recent results in three spacetime dimensions. This algebra allows to recover the aforementioned (linear) ones as composites. 4. These examples allow to equip not only black holes, but also cosmological horizons with soft hair. We also discuss implications of soft hair for black hole thermodynamics and entropy., Comment: 20 pages

Published

2019

25. Local quantum energy conditions in non-Lorentz-invariant quantum field theories

Author

Grumiller, Daniel, Parekh, Pulastya, and Riegler, Max

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We provide the first example of local quantum energy conditions in quantum field theories that are not Lorentz invariant. We focus on field theories in two dimensions with infinite-dimensional symmetries, like the ones governed by the Bondi-van der Burg-Metzner-Sachs group that appear in the context of flat space holography. Reminiscent of holographic results on the quantum null energy condition, we prove that our new energy conditions saturate for states in the field theory that are dual to vacuum solutions of three-dimensional Einstein gravity with vanishing cosmological constant., Comment: 6 pages, v2: added 2 sentences in concluding paragraph; to be published in PRL

Published

2019

26. Near horizon dynamics of three dimensional black holes

Author

Grumiller, Daniel and Merbis, Wout

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We perform the Hamiltonian reduction of three dimensional Einstein gravity with negative cosmological constant under constraints imposed by near horizon boundary conditions. The theory reduces to a Floreanini-Jackiw type scalar field theory on the horizon, where the scalar zero modes capture the global black hole charges. The near horizon Hamiltonian is a total derivative term, which explains the softness of all oscillator modes of the scalar field. We find also a (Korteweg-de Vries) hierarchy of modified boundary conditions that we use to lift the degeneracy of the soft hair excitations on the horizon., Comment: 30pp, v2: added refs. and remark in discussion section, v3: extended and corrected first two paragraphs in section 2.2 and added last paragraph on near horizon nomenclature in section 2.3, v4: extended analysis to include dynamical holonomy

Published

2019

27. Quantum Null Energy Condition and its (non)saturation in 2d CFTs

Author

Ecker, Christian, Grumiller, Daniel, van der Schee, Wilke, Sheikh-Jabbari, Shahin, and Stanzer, Philipp

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We consider the Quantum Null Energy Condition (QNEC) for holographic conformal field theories in two spacetime dimensions (CFT$_2$). We show that QNEC saturates for all states dual to vacuum solutions of AdS$_3$ Einstein gravity, including systems that are far from thermal equilibrium. If the Ryu-Takayanagi surface encounters bulk matter QNEC does not need to be saturated, whereby we give both analytical and numerical examples. In particular, for CFT$_2$ with a global quench dual to AdS$_3$-Vaidya geometries we find a curious half-saturation of QNEC for large entangling regions. We also address order one corrections from quantum backreactions of a scalar field in AdS$_3$ dual to a primary operator of dimension $h$ in a large central charge expansion and explicitly compute both, the backreacted Ryu--Takayanagi surface part and the bulk entanglement contribution to EE and QNEC. At leading order for small entangling regions the contribution from bulk EE exactly cancels the contribution from the back-reacted Ryu-Takayanagi surface, but at higher orders in the size of the region the contributions are almost equal while QNEC is not saturated. For a half-space entangling region we find that QNEC is gapped by $h/4$ in the large $h$ expansion., Comment: 37 pages, 9 figures; comments are welcome

Published

2019

28. Boundary theories for dilaton supergravity in 2D

Author

Cárdenas, Marcela, Fuentealba, Oscar, González, Hernán A., Grumiller, Daniel, Valcárcel, Carlos, and Vassilevich, Dmitri

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

The $\mathfrak{osp}(2,N)$-BF formulation of dilaton supergravity in two dimensions is considered. We introduce a consistent class of asymptotic conditions preserved by the extended superreparametrization group of the thermal circle at infinity. In the $N=1$ and $N=2$ cases the phase space foliation in terms of orbits of the super-Virasoro group allows to formulate suitable integrability conditions for the boundary terms that render the variational principle well-defined. Once regularity conditions are imposed, requiring trivial holonomy around the contractible cycle the asymptotic symmetries are broken to some subsets of exact isometries. Different coadjoint orbits of the asymptotic symmetry group yield different types of boundary dynamics; we find that the action principle can be reduced to either the extended super-Schwarzian theory, consistent with the dynamics of a non-vanishing Casimir function, or to superparticle models, compatible with bulk configurations whose Casimir is zero. These results are generalized to $\mathcal{N} \geq 3$ by making use of boundary conditions consistent with the loop group of OSp$(2,N)$. Appropriate integrability conditions permit to reduce the dynamics of dilaton supergravity to a particle moving on the OSp$(2,N)$ group manifold. Generalizations of the boundary dynamics for $\mathcal{N}>2$ are obtained once bulk geometries are supplemented with super-AdS$_2$ asymptotics., Comment: 40 pages, no figures

Published

2018

29. Towards a bulk description of higher spin SYK

Author

González, Hernán A., Grumiller, Daniel, and Salzer, Jakob

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We consider on the bulk side extensions of the Sachdev--Ye--Kitaev (SYK) model to Yang--Mills and higher spins. To this end we study generalizations of the Jackiw--Teitelboim (JT) model in the BF formulation. Our main goal is to obtain generalizations of the Schwarzian action, which we achieve in two ways: by considering the on-shell action supplemented by suitable boundary terms compatible with all symmetries, and by applying the Lee--Wald--Zoupas formalism to analyze the symplectic structure of dilaton gravity. We conclude with a discussion of the entropy (including log-corrections from higher spins) and a holographic dictionary for the generalized SYK/JT correspondence., Comment: 42 pages; v2: Typos corrected

Published

2018

30. Soft hairy warped black hole entropy

Author

Grumiller, Daniel, Hacker, Philip, and Merbis, Wout

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We reconsider warped black hole solutions in topologically massive gravity and find novel boundary conditions that allow for soft hairy excitations on the horizon. To compute the associated symmetry algebra we develop a general framework to compute asymptotic symmetries in any Chern-Simons-like theory of gravity. We use this to show that the near horizon symmetry algebra consists of two u(1) current algebras and recover the surprisingly simple entropy formula $S=2\pi (J_0^+ + J_0^-)$, where $J_0^\pm$ are zero mode charges of the current algebras. This provides the first example of a locally non-maximally symmetric configuration exhibiting this entropy law and thus non-trivial evidence for its universality., Comment: 24pp, v2: added appendix C and minor edits

Published

2017

31. Saturation of the Quantum Null Energy Condition in Far-From-Equilibrium Systems

Author

Ecker, Christian, Grumiller, Daniel, van der Schee, Wilke, and Stanzer, Philipp

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

The Quantum Null Energy Condition (QNEC) is a new local energy condition that a general Quantum Field Theory (QFT) is believed to satisfy, relating the classical null energy condition (NEC) to the second functional derivative of the entanglement entropy in the corresponding null direction. We present the first series of explicit computations of QNEC in a strongly coupled QFT, using holography. We consider the vacuum, thermal equilibrium, a homogeneous far-from-equilibrium quench as well as a colliding system that violates NEC. For vacuum and the thermal phase QNEC is always weaker than NEC. While for the homogeneous quench QNEC is satisfied with a finite gap, we find the interesting result that the colliding system can saturate QNEC, depending on the null direction., Comment: 5 pages, 5 figures

Published

2017

32. New entropy formula for Kerr black holes

Author

Gonzalez, Hernan, Grumiller, Daniel, Merbis, Wout, and Wutte, Raphaela

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We introduce a new entropy formula for Kerr black holes inspired by recent results for 3-dimensional black holes and cosmologies with soft Heisenberg hair. We show that also Kerr-Taub-NUT black holes obey the same formula., Comment: 10 pp, talk presented at ICGAC XIII in Seoul

Published

2017

33. Menagerie of AdS$\boldsymbol{_2}$ boundary conditions

Author

Grumiller, Daniel, McNees, Robert, Salzer, Jakob, Valcárcel, Carlos, and Vassilevich, Dmitri

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We consider different sets of AdS$_2$ boundary conditions for the Jackiw-Teitelboim model in the linear dilaton sector where the dilaton is allowed to fluctuate to leading order at the boundary of the Poincar\'e disk. The most general set of boundary condtions is easily motivated in the gauge theoretic formulation as a Poisson sigma model and has an $\mathfrak{sl}(2)$ current algebra as asymptotic symmetries. Consistency of the variational principle requires a novel boundary counterterm in the holographically renormalized action, namely a kinetic term for the dilaton. The on-shell action can be naturally reformulated as a Schwarzian boundary action. While there can be at most three canonical boundary charges on an equal-time slice, we consider all Fourier modes of these charges with respect to the Euclidean boundary time and study their associated algebras. Besides the (centerless) $\mathfrak{sl}(2)$ current algebra we find for stricter boundary conditions a Virasoro algebra, a warped conformal algebra and a $\mathfrak{u}(1)$ current algebra. In each of these cases we get one half of a corresponding symmetry algebra in three-dimensional Einstein gravity with negative cosmological constant and analogous boundary conditions. However, on-shell some of these algebras reduce to finite-dimensional ones, reminiscent of the on-shell breaking of conformal invariance in SYK. We conclude with a discussion of thermodynamical aspects, in particular the entropy and some Cardyology., Comment: 42 pp, 5 figs, v2: added refs

Published

2017

34. Log corrections to entropy of three dimensional black holes with soft hair

Author

Grumiller, Daniel, Perez, Alfredo, Tempo, David, and Troncoso, Ricardo

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We calculate log corrections to the entropy of three-dimensional black holes with "soft hairy" boundary conditions. Their thermodynamics possesses some special features that preclude a naive direct evaluation of these corrections, so we follow two different approaches. The first one exploits that the BTZ black hole belongs to the spectrum of Brown-Henneaux as well as soft hairy boundary conditions, so that the respective log corrections are related through a suitable change of the thermodynamic ensemble. In the second approach the analogue of modular invariance is considered for dual theories with anisotropic scaling of Lifshitz type with dynamical exponent z at the boundary. On the gravity side such scalings arise for KdV-type boundary conditions, which provide a specific 1-parameter family of multi-trace deformations of the usual AdS3/CFT2 setup, with Brown-Henneaux corresponding to z=1 and soft hairy boundary conditions to the limiting case z=0. Both approaches agree in the case of BTZ black holes for any non-negative z. Finally, for soft hairy boundary conditions we show that not only the leading term, but also the log corrections to the entropy of black flowers endowed with affine u(1) soft hair charges exclusively depend on the zero modes and hence coincide with the ones for BTZ black holes., Comment: 15 pages, no figures, v2: added ref

Published

2017

35. Most general flat space boundary conditions in three-dimensional Einstein gravity

Author

Grumiller, Daniel, Merbis, Wout, and Riegler, Max

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We consider the most general asymptotically flat boundary conditions in three-dimensional Einstein gravity in the sense that we allow for the maximal number of independent free functions in the metric, leading to six towers of boundary charges and six associated chemical potentials. We find as associated asymptotic symmetry algebra an isl(2)_k current algebra. Restricting the charges and chemical potentials in various ways recovers previous cases, such as BMS_3, Heisenberg or Detournay-Riegler, all of which can be obtained as contractions of corresponding AdS_3 constructions. Finally, we show that a flat space contraction can induce an additional Carrollian contraction. As examples we provide two novel sets of boundary conditions for Carroll gravity., Comment: 23 pp, invited for CQG BMS Focus Issue edited by Geoffrey Compere, v2: added minor clarifications and refs

Published

2017

36. Higher-Spin Flat Space Cosmologies with Soft Hair

Author

Ammon, Martin, Grumiller, Daniel, Prohazka, Stefan, Riegler, Max, and Wutte, Raphaela

Subjects

High Energy Physics - Theory

Abstract

We present and discuss near horizon boundary conditions for flat space higher-spin gravity in three dimensions. As in related work our boundary conditions ensure regularity of the solutions independently of the charges. The asymptotic symmetry algebra is given by a set of $\hat{\mathfrak{u}}(1)$ current algebras. The associated charges generate higher-spin soft hair. We derive the entropy for solutions that are continuously connected to flat space cosmologies and find the same result as in the spin-2 case: the entropy is linear in the spin-2 zero-mode charges and independent from the spin-3 charges. Using twisted Sugawara-like constructions of higher-spin currents we show that our simple result for entropy of higher-spin flat space cosmologies coincides precisely with the complicated earlier results expressed in terms of higher-spin zero mode charges., Comment: 22 pages, A Mathematica workbook on ihs[$\lambda$] is included as an ancilliary file; v2: corrected minor misprints; v3: fixed minor issues with the display of some references

Published

2017

37. Three-dimensional Spin-3 Theories Based on General Kinematical Algebras

Author

Bergshoeff, Eric, Grumiller, Daniel, Prohazka, Stefan, and Rosseel, Jan

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We initiate the study of non- and ultra-relativistic higher spin theories. For sake of simplicity we focus on the spin-3 case in three dimensions. We classify all kinematical algebras that can be obtained by all possible In\"on\"u--Wigner contraction procedures of the kinematical algebra of spin-3 theory in three dimensional (anti-) de Sitter space-time. We demonstrate how to construct associated actions of Chern--Simons type, directly in the ultra-relativistic case and by suitable algebraic extensions in the non-relativistic case. We show how to give these kinematical algebras an infinite-dimensional lift by imposing suitable boundary conditions in a theory we call "Carroll Gravity", whose asymptotic symmetry algebra turns out to be an infinite-dimensional extension of the Carroll algebra., Comment: 32+12 pages, 2 figures; v2: 1 footnote, 4 refs; v3: 1 ref corrected, 1 ref updated

Published

2016

38. Soft hairy horizons in three spacetime dimensions

Author

Afshar, Hamid, Grumiller, Daniel, Merbis, Wout, Perez, Alfredo, Tempo, David, and Troncoso, Ricardo

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We discuss some aspects of soft hairy black holes and a new kind of "soft hairy cosmologies", including a detailed derivation of the metric formulation, results on flat space, and novel observations concerning the entropy. Remarkably, like in the case with negative cosmological constant, we find that the asymptotic symmetries for locally flat spacetimes with a horizon are governed by infinite copies of the Heisenberg algebra that generate soft hair descendants. It is also shown that the generators of the three-dimensional Bondi-Metzner-Sachs algebra arise from composite operators of the affine u(1) currents through a twisted Sugawara-like construction. We then discuss entropy macroscopically, thermodynamically and microscopically and discover that a microscopic formula derived recently for boundary conditions associated to the Korteweg-de Vries hierarchy fits perfectly our results for entropy and ground state energy. We conclude with a comparison to related approaches., Comment: 22 pp, v2: added refs

Published

2016

39. Exploring nonlocal observables in shock wave collisions

Author

Ecker, Christian, Grumiller, Daniel, Stanzer, Philipp, Stricker, Stefan A., and van der Schee, Wilke

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We study the time evolution of 2-point functions and entanglement entropy in strongly anisotropic, inhomogeneous and time-dependent N=4 super Yang-Mills theory in the large N and large 't Hooft coupling limit using AdS/CFT. On the gravity side this amounts to calculating the length of geodesics and area of extremal surfaces in the dynamical background of two colliding gravitational shockwaves, which we do numerically. We discriminate between three classes of initial conditions corresponding to wide, intermediate and narrow shocks, and show that they exhibit different phenomenology with respect to the nonlocal observables that we determine. Our results permit to use (holographic) entanglement entropy as an order parameter to distinguish between the two phases of the cross-over from the transparency to the full-stopping scenario in dynamical Yang-Mills plasma formation, which is frequently used as a toy model for heavy ion collisions. The time evolution of entanglement entropy allows to discern four regimes: highly efficient initial growth of entanglement, linear growth, (post) collisional drama and late time (polynomial) fall off. Surprisingly, we found that 2-point functions can be sensitive to the geometry inside the black hole apparent horizon, while we did not find such cases for the entanglement entropy., Comment: 28 pp, 9 figs; v2: updated references, changed color bars in Figure 2 and Figure 6

Published

2016

40. Most general AdS_3 boundary conditions

Author

Grumiller, Daniel and Riegler, Max

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We consider the most general asymptotically anti-de Sitter boundary conditions in three-dimensional Einstein gravity with negative cosmological constant. The metric contains in total twelve independent functions, six of which are interpreted as chemical potentials (or non-normalizable fluctuations) and the other half as canonical boundary charges (or normalizable fluctuations). Their presence modifies the usual Fefferman-Graham expansion. The asymptotic symmetry algebra consists of two sl(2)_k current algebras, the levels of which are given by k=l/(4G_N), where l is the AdS radius and G_N the three-dimensional Newton constant., Comment: 22 pp, v2: added refs. and subsection 4.4, v3: added two footnotes, v4: corrected minor misprints

Published

2016

41. Aspects of AdS$_2$ holography with non-constant dilaton

Author

Grumiller, Daniel, Salzer, Jakob, and Vassilevich, Dmitri

Subjects

High Energy Physics - Theory

Abstract

In this proceedings contribution we summarize and discuss results of Refs. \cite{Grumiller:2013swa, Grumiller:2015vaa} in the light of recent developments in $\textrm{AdS}_2$ holography \cite{Maldacena:2016upp, Jensen:2016pah, Engelsoy:2016xyb}., Comment: Talk given by DV at the Workshop "Strong Field Problems in Quantum Theory", Tomsk, 2016. V2: misprint corrected, references added

Published

2016

42. Higher Spin Black Holes with Soft Hair

Author

Grumiller, Daniel, Perez, Alfredo, Prohazka, Stefan, Tempo, David, and Troncoso, Ricardo

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We construct a new set of boundary conditions for higher spin gravity, inspired by a recent "soft Heisenberg hair"-proposal for General Relativity on three-dimensional Anti-de Sitter. The asymptotic symmetry algebra consists of a set of affine $\hat u(1)$ current algebras. Its associated canonical charges generate higher spin soft hair. We focus first on the spin-3 case and then extend some of our main results to spin-$N$, many of which resemble the spin-2 results: the generators of the asymptotic $W_3$ algebra naturally emerge from composite operators of the $\hat u(1)$ charges through a twisted Sugawara construction; our boundary conditions ensure regularity of the Euclidean solutions space independently of the values of the charges; solutions, which we call "higher spin black flowers", are stationary but not necessarily spherically symmetric. Finally, we derive the entropy of higher spin black flowers, and find that for the branch that is continuously connected to the BTZ black hole, it depends only on the affine purely gravitational zero modes. Using our map to $W$-algebra currents we recover well-known expressions for higher spin entropy. We also address higher spin black flowers in the metric formalism and achieve full consistency with previous results., Comment: 24 pages, no figures

Published

2016

43. Soft Heisenberg hair on black holes in three dimensions

Author

Afshar, Hamid, Detournay, Stephane, Grumiller, Daniel, Merbis, Wout, Perez, Alfredo, Tempo, David, and Troncoso, Ricardo

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Three-dimensional Einstein gravity with negative cosmological constant admits stationary black holes that are not necessarily spherically symmetric. We propose boundary conditions for the near horizon region of these black holes that lead to a surprisingly simple near horizon symmetry algebra consisting of two affine u(1) current algebras. The symmetry algebra is essentially equivalent to the Heisenberg algebra. The associated charges give a specific example of "soft hair" on the horizon, as defined by Hawking, Perry and Strominger. We show that soft hair does not contribute to the Bekenstein-Hawking entropy of Banados-Teitelboim-Zanelli black holes and "black flower" generalizations. From the near horizon perspective the conformal generators at asymptotic infinity appear as composite operators, which we interpret in the spirit of black hole complementarity. Another remarkable feature of our boundary conditions is that they are singled out by requiring that the whole spectrum is compatible with regularity at the horizon, regardless the value of the global charges like mass or angular momentum. Finally, we address black hole microstates and generalizations to cosmological horizons., Comment: 6pp

Published

2016

44. Near-Horizon Geometry and Warped Conformal Symmetry

Author

Afshar, Hamid, Detournay, Stéphane, Grumiller, Daniel, and Oblak, Blagoje

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We provide boundary conditions for three-dimensional gravity including boosted Rindler spacetimes, representing the near-horizon geometry of non-extremal black holes or flat space cosmologies. These boundary conditions force us to make some unusual choices, like integrating the canonical boundary currents over retarded time and periodically identifying the latter. The asymptotic symmetry algebra turns out to be a Witt algebra plus a twisted u(1) current algebra with vanishing level, corresponding to a twisted warped CFT that is qualitatively different from the ones studied so far in the literature. We show that this symmetry algebra is related to BMS by a twisted Sugawara construction and exhibit relevant features of our theory, including matching micro- and macroscopic calculations of the entropy of zero-mode solutions. We confirm this match in a generalization to boosted Rindler-AdS. Finally, we show how Rindler entropy emerges in a suitable limit., Comment: 26 pages + appendices, v2: added refs. & comments and corrected T-independent part of free energy for Rindler-AdS

Published

2015

45. Carroll-invariant propagating fields

Author

Ecker, Florian, Grumiller, Daniel, Henneaux, Marc, Salgado-Rebolledo, Patricio, Ecker, Florian, Grumiller, Daniel, Henneaux, Marc, and Salgado-Rebolledo, Patricio

Abstract

info:eu-repo/semantics/published

Published

2024

46. Free energy of topologically massive gravity and flat space holography

Author

Grumiller, Daniel and Merbis, Wout

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We calculate the free energy from the on-shell action for topologically massive gravity with negative and vanishing cosmological constant, thereby providing a first principles derivation of the free energy of Banados-Teitelboim-Zanelli (BTZ) black holes and flat space cosmologies. We summarize related recent checks of flat space holography., Comment: 9 pages, prepared for the proceedings of the Karl Schwarzschild meeting 2015. v2. Typo's corrected and ref's added

Published

2015

47. $AdS_2$ holography is (non-)trivial for (non-)constant dilaton

Author

Grumiller, Daniel, Salzer, Jakob, and Vassilevich, Dmitri

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We study generic two-dimensional dilaton gravity with a Maxwell field and prove its triviality for constant dilaton boundary conditions, despite of the appearance of a Virasoro algebra with non-zero central charge. We do this by calculating the canonical boundary charges, which turn out to be trivial, and by calculating the quantum gravity partition function, which turns out to be unity. We show that none of the following modifications changes our conclusions: looser boundary conditions, non-linear interactions of the Maxwell field with the dilaton, inclusion of higher spin fields, inclusion of generic gauge fields. Finally, we consider specifically the charged Jackiw--Teitelboim model, whose holographic study was pioneered by Hartman and Strominger, and show that it is non-trivial for certain linear dilaton boundary conditions. We calculate the entropy from the Euclidean path integral, using Wald's method and exploiting the chiral Cardy formula. The macroscopic and microscopic results for entropy agree with each other., Comment: added a reference; corrected typos

Published

2015

48. Null warped AdS in higher spin gravity

Author

Breunhoelder, Veronika, Gary, Mirah, Grumiller, Daniel, and Prohazka, Stefan

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We equip three-dimensional spin-3 gravity in the principal embedding with a new set of boundary conditions that we call "asymptotically null warped AdS". We find a chiral copy of the Polyakov-Bershadsky algebra as asymptotic symmetry algebra, reminiscent of the situation in topologically massive gravity with strict null warped AdS boundary conditions. We prove the invertibility of the map between zuvielbein and metric variables and construct a global gauge transformation to half of AdS spin-3 gravity in the diagonal embedding. This explains why the theory is chiral and why the Polyakov-Bershadsky algebra arises. We then introduce chemical potentials, derive the entropy, free energy, and the holographic response functions, and conclude with a discussion.

Published

2015

49. Stress tensor correlators in three-dimensional gravity

Author

Bagchi, Arjun, Grumiller, Daniel, and Merbis, Wout

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We calculate holographically arbitrary n-point correlators of the boundary stress tensor in three-dimensional Einstein gravity with negative or vanishing cosmological constant. We provide explicit expressions up to 5-point (connected) correlators and show consistency with the Galilean conformal field theory Ward identities and recursion relations of correlators, which we derive. This provides a novel check of flat space holography in three dimensions., Comment: 6 pages, v2: corrected signs

Published

2015

50. Evolution of holographic entanglement entropy in an anisotropic system

Author

Ecker, Christian, Grumiller, Daniel, and Stricker, Stefan A.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We determine holographically 2-point correlators of gauge invariant operators with large conformal weights and entanglement entropy of strips for a time-dependent anisotropic 5-dimensional asymptotically anti-de Sitter spacetime. At the early stage of evolution where geodesics and extremal surfaces can extend beyond the apparent horizon all observables vary substantially from their thermal value, but thermalize rapidly. At late times we recover quasi-normal ringing of correlators and holographic entanglement entropy around their thermal values, as expected on general grounds. We check the behaviour of holographic entanglement entropy and correlators as function of the separation length of the strip and find agreement with the exact expressions derived in the small and large temperature limits., Comment: 15 pages + appendices; v2: added references

Published

2015