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Inward Bound - Conference on Black Holes and Emergent Spacetime
from
Wednesday, 17 August 2016 (08:00)
to
Saturday, 20 August 2016 (12:00)
Monday, 15 August 2016
Tuesday, 16 August 2016
Wednesday, 17 August 2016
09:00
Registration
Registration
09:00 - 10:00
Room: Wallenbergsalen
10:00
Welcome from Nordita Director
-
Hans Hansson
(
Nordita
)
Welcome from Nordita Director
Hans Hansson
(
Nordita
)
10:00 - 10:15
Room: Wallenbergsalen
10:15
Soft hair on black holes
-
Andrew Strominger
(
Harvard University
)
Soft hair on black holes
Andrew Strominger
(
Harvard University
)
10:15 - 11:00
Room: Wallenbergsalen
The discovery of an infinite number of new exact conservation laws in all gauge and gravitational theories is reviewed and its implications for black hole information are explored.
11:00
Coffee break
Coffee break
11:00 - 11:30
Room: Wallenbergsalen
11:30
Causality in conformal field theory and constraints on graviton couplings
-
Thomas Hartman
(
Cornell University
)
Causality in conformal field theory and constraints on graviton couplings
Thomas Hartman
(
Cornell University
)
11:30 - 12:15
Room: Wallenbergsalen
Causality imposes subtle constraints on the coupling constants in effective field theory. If the constraints are violated, then the theory cannot be UV completed. I will describe analogous causality constraints in strongly coupled conformal field theory using the conformal bootstrap. I will also discuss the consequences for the dual gravitational action, and progress towards a direct derivation of Einstein gravity 3-point couplings from CFT.
12:15
A CFT perspective on the black hole interior
-
Herman Verlinde
(
Princeton University
)
A CFT perspective on the black hole interior
Herman Verlinde
(
Princeton University
)
12:15 - 13:00
Room: Wallenbergsalen
In this talk, I present an intrinsic CFT construction of local bulk operators in terms of cross cap boundary states. I discuss how background independence and bulk locality naturally emerge from conformal invariance and the conformal bootstrap. I then describe what it means for one of these bulk observables to cross a black hole horizon.
13:00
Lunch break
Lunch break
13:00 - 14:30
Room: P
14:30
Effective black hole degrees of freedom at low frequencies
-
Barak Kol
(
Hebrew University
)
Effective black hole degrees of freedom at low frequencies
Barak Kol
(
Hebrew University
)
14:30 - 15:00
Room: Wallenbergsalen
A black hole moving through a slowly varying background can be replaced by a point particle together with some effective interactions with the background by using the (non-quantum) effective field theory method. Some of the coefficients in the so-defined effective black hole (BH) action are known, and in particular 4d Schwarzschild black holes are known to have no induced gravitational polarization at the linearized response level. The BH effective action includes also certain well-defined degrees of freedom whose physical interpretation will be discussed.
15:00
Gravity waves from plunges into black holes via Kerr/CFT
-
Shahar Hadar
(
DAMTP, University of Cambridge
)
Gravity waves from plunges into black holes via Kerr/CFT
Shahar Hadar
(
DAMTP, University of Cambridge
)
15:00 - 15:30
Room: Wallenbergsalen
Massive objects orbiting a near-extreme Kerr black hole plunge into the horizon after passing the innermost stable circular orbit, producing an observable signal of gravitational radiation. The near horizon dynamics of such rapidly rotating black holes is governed by a conformal symmetry. In the talk I will show how this symmetry can be exploited to analytically compute the outgoing gravity wave signal for a variety of orbits. I will also discuss the holographic interpretation of the process.
15:30
Effective theories for the dynamics of black branes in supergravity
-
Jay Armas
(
ULB
)
Effective theories for the dynamics of black branes in supergravity
Jay Armas
(
ULB
)
15:30 - 16:00
Room: Wallenbergsalen
In certain regimes, perturbations of black branes are described by effective theories of fluid and elastic dynamics. I present recent results on a general account of the dynamics of black branes in supergravity theories, including any type of brane bound state. The type of theories that arise from this analysis are novel types of forced fluid dynamics living on dynamical hypersurfaces, which include force terms due to the presence of Chern-Simons couplings in the supergravity actions. I highlight the relevance of this work for the existence of probe brane configurations in arbitrary supergravity backgrounds with fluxes. Furthermore, I will discuss the connections between these effective theories and the DBI action.
16:00
Coffee break
Coffee break
16:00 - 16:30
Room: Wallenbergsalen
16:30
Constraining the bulk with boundary causality
-
Netta Engelhardt
(
University of California Santa Barbara
)
Constraining the bulk with boundary causality
Netta Engelhardt
(
University of California Santa Barbara
)
16:30 - 16:50
Room: Wallenbergsalen
In gauge/gravity duality, points which are not causally related on the boundary cannot be causality related through the bulk; this is the statement of boundary causality. This requirement constrains the behavior of perturbative quantum corrections to the bulk geometry. I will present a (background-dependent) bulk condition which is both necessary and sufficient to guarantee boundary causality. This constraint is less restrictive than the Averaged Null Energy Condition in the bulk.
16:50
Precursors, gauge invariance, and quantum error correction in AdS/CFT
-
Laurens Kabir
(
University of Amsterdam
)
Precursors, gauge invariance, and quantum error correction in AdS/CFT
Laurens Kabir
(
University of Amsterdam
)
16:50 - 17:10
Room: Wallenbergsalen
A puzzling aspect of the AdS/CFT correspondence is that a single bulk operator can be mapped to multiple different boundary operators, or precursors. By improving upon a recent model of Mintun, Polchinski, and Rosenhaus, I demonstrate explicitly how this ambiguity arises in a simple model of the field theory. In particular, I show how gauge invariance in the boundary theory manifests as a freedom in the smearing function used in the bulk-boundary mapping, and explicitly show how this freedom can be used to localize the precursor in different spatial regions. I also show how the ambiguity can be understood in terms of quantum error correction, by appealing to the entanglement present in the CFT. The concordance of these two approaches suggests that gauge invariance and entanglement in the boundary field theory are intimately connected to the reconstruction of local operators in the dual spacetime.
17:10
The weak gravity conjecture in three dimensions
-
Miguel Montero
(
Instituto de Fisica Teorica UAM-CSIC
)
The weak gravity conjecture in three dimensions
Miguel Montero
(
Instituto de Fisica Teorica UAM-CSIC
)
17:10 - 17:30
Room: Wallenbergsalen
The Weak Gravity Conjecture (WGC) predicts the existence of light charged states in any weakly couple gauge theory also coupled to gravity, which have been shown to have crucial consequences to e.g. Large field inflation models. In spite of the abundance of evidence for the conjecture both via black hole decay arguments and a plethora of concrete examples in String Theory, no formal proof of the WGC has been produced so far. We will provide such a proof in the restricted case of AdS3 spacetimes, using modular invariance of the dual CFT. Notably, most of the WGC heuristics based on black hole evaporation do not apply here. We also discuss an interesting discrete charge which arises naturally in our discussion, for which modular invariance is not enough to show the existence of light charged states. This discrete symmetry manifests itself as discrete electric hair on BTZ black holes.
17:30
Break
Break
17:30 - 18:00
Room: Wallenbergsalen
18:00
Holographic black hole chemistry
-
Brandon Robinson
(
University of Washington
)
Holographic black hole chemistry
Brandon Robinson
(
University of Washington
)
18:00 - 18:20
Room: Wallenbergsalen
Thermodynamic quantities associated with black holes in Anti-de Sitter space obey an interesting identity when the cosmological constant is included as one of the dynamical variables: the generalized Smarr formula. This relation can be shown to follow from relatively simple considerations in the dual holographic field theory. The large N behavior of extensive thermodynamics quantities in the gauge theory yield a universal relation from which, with additional input, the generalized Smarr formula naturally follows.
18:20
Glimpses of black hole formation/evaporation in highly inelastic, transplanckian energy string collisions
-
Andrea Addazi
(
UNIVAQ, LNGS INFN
)
Glimpses of black hole formation/evaporation in highly inelastic, transplanckian energy string collisions
Andrea Addazi
(
UNIVAQ, LNGS INFN
)
18:20 - 18:40
Room: Wallenbergsalen
We revisit possible glimpses of black-hole formation by looking at trans-planckian string-string collisions at very high final-state multiplicity. We compare, in particular, previous results using the optical theorem, the resummation of ladder diagrams at arbitrary loop order, and the AGK cutting rules, with the more recent study of 2 → N scatterings. We argue that some apparent tension between the two approaches disappears once a reinterpretation of the results in the latter approach is adopted. Under that assumption, the typical final state produced in a highly trans- planckian collision does indeed appear to share some properties with those expected from the evaporation of a black hole of mass √s, although no sign of thermalization is seen to emerge at this level of approximation.
18:40
Collisions of pointlike particles in three-dimensional anti-deSitter space
-
Jonathan Lindgren
(
VUB
)
Collisions of pointlike particles in three-dimensional anti-deSitter space
Jonathan Lindgren
(
VUB
)
18:40 - 19:00
Room: Wallenbergsalen
We study collisions of many point-like particles in three dimensional anti-de Sitter space, generalizing the known result with two particles. We show how to construct exact solutions corresponding to the formation of either a black hole or a conical singularity from the collision of an arbitrary number of massless particles falling in radially from the boundary. We find that when going away from the case of discrete rotational symmetry, this is not a trivial generalization of the two-particle case, but requires that the excised wedges corresponding to the particles must be chosen in a very precise way for a consistent solution. We also explicitly take the limit when the number of particles goes to infinity and obtain thin shell solutions that in general break rotational invariance, corresponding to an instantaneous and inhomogeneous perturbation at the boundary. We also compute the stress-energy tensor of the shell using the junction formalism for null shells and obtain agreement with the point particle picture.
19:15
Welcome reception
Welcome reception
19:15 - 21:00
Room: In front of the AlbaNova restaurant
Thursday, 18 August 2016
09:30
Holography inside the horizon
-
David Lowe
(
Brown University
)
Holography inside the horizon
David Lowe
(
Brown University
)
09:30 - 10:15
Room: Wallenbergsalen
Issues with the construction of black hole interiors in holographic theories are reviewed, and a solution is presented. Key ingredients are the role of the ultraviolet cutoff on the gravity side, and the identification of decoherence of interior degrees of freedom with singularity approach.
10:15
Renormalisation of entanglement entropy
-
Marika Taylor
(
Mathematical Sciences, University of Southampton
)
Renormalisation of entanglement entropy
Marika Taylor
(
Mathematical Sciences, University of Southampton
)
10:15 - 11:00
Room: Wallenbergsalen
In this talk we will discuss how entanglement entropy can be renormalised, both holographically and in field theory.
11:00
Coffee break
Coffee break
11:00 - 11:30
Room: Wallenbergsalen
11:30
The black hole as a hydrogen atom
-
Gerard 't Hooft
(
Institute for Theoretical Physics, Utrecht University
)
The black hole as a hydrogen atom
Gerard 't Hooft
(
Institute for Theoretical Physics, Utrecht University
)
11:30 - 12:15
Room: Wallenbergsalen
Three important insights are needed to understand black holes, conservation of information, complementarity and firewalls. One: the gravitational force between in- and out-going particles, two: the spherical wave expansion, and three: antipodal identification. Neglecting any one of these three points turns black holes into complete mysteries, while they can be as transparent as the hydrogen atom. It is shown how every partial wave obeys a very simple, easily solvable, Schroedinger equation (just as in the hydrogen atom), featuring only pure quantum states. However, we do end up doing “new physics”, as soon as we apply the required cut-offs at the Planck scale. (The talk will be given via skype).
12:15
Non-extremal black holes, subtracted geometry and holography
-
Mirjam Cvetic
(
University of Pennsylvania
)
Non-extremal black holes, subtracted geometry and holography
Mirjam Cvetic
(
University of Pennsylvania
)
12:15 - 13:00
Room: Wallenbergsalen
We review the thermodynamic properties of general asymptotically flat black holes in four dimensions, suggestive of a dual conformal field theory interpretation. We introduce the so-called subtracted geometry as an ``asymptotically conical box'' of non-extremal black holes where the conformal symmetry becomes manifest. Employing holographic renormalization techniques in a variational problem in terms of equivalence classes of boundary data under the local asymptotic symmetries of the theory, we derive the conserved charges and the first law of thermodynamics for the subtracted geometry. We also formulate a holographic dictionary for this geometry in terms of a two-dimensional Einstein-Maxwell-Dilaton model.
13:00
Lunch break
Lunch break
13:00 - 14:30
Room: P
14:30
Smooth horizonless geometries deep inside the black-hole regime
-
David Turton
(
CEA Saclay
)
Smooth horizonless geometries deep inside the black-hole regime
David Turton
(
CEA Saclay
)
14:30 - 15:00
Room: Wallenbergsalen
The study of black hole microstates in string theory is an important problem, which offers the potential to resolve the information paradox. I will present a new family of D1-D5-P supergravity solutions, whose dual CFT states exhibit the important feature that the momentum charge is fractionated. I will then describe recent work on constructing a more general class of black hole microstate geometries. This class includes solutions that have arbitrarily small angular momenta, deep within the regime of quantum numbers and couplings for which a large classical black hole exists. I will close with a discussion of the physics of an observer falling into a black hole.
15:00
Quantum tunneling and black hole horizons
-
Andrea Puhm
(
UC Santa Barbara
)
Quantum tunneling and black hole horizons
Andrea Puhm
(
UC Santa Barbara
)
15:00 - 15:30
Room: Wallenbergsalen
To unify quantum mechanics and general relativity it has been argued that effective field theory has to break down at the horizon of black holes. To establish this premature breakdown of general relativity a dynamical mechanism needs to be provided. I will discuss the possibility of quantum tunneling as a means to avoid the formation of a horizon in the gravitational collapse process. Surprisingly, the amplitude to tunnel into microstate geometries built from key ingredients of string theory - extra dimensions, topology and fluxes - is not parametrically suppressed.
15:30
AdS black holes and baryonic charges
-
Chiara Toldo
(
Columbia University
)
AdS black holes and baryonic charges
Chiara Toldo
(
Columbia University
)
15:30 - 16:00
Room: Wallenbergsalen
This talk deals with AdS black holes arising as solutions of four dimensional supergravity admitting an embedding in M-theory. Supersymmetric AdS4 black holes with spherical horizon were discovered quite recently and have lately attracted some attention, given that their entropy was successfully reproduced via the computation of the twisted Witten index in ABJM theory. After reviewing recent progress in the analysis of supersymmetric and non supersymmetric configurations, I will discuss some ongoing work on a class of new solutions arising from M-theory on 7d Sasaki-Einstein coset manifolds. Such thermal black holes are characterized by charged scalars and massive vector fields. The analysis of the stability of probes in such a background gives insight on the possible existence of stable of multi-center black holes in anti-de Sitter, relevant for the holographic description of the glass phase transition.
16:00
Coffee break
Coffee break
16:00 - 16:30
Room: Wallenbergsalen
16:30
A toy model of black hole complementarity
-
Souvik Banerjee
(
Groningen University
)
A toy model of black hole complementarity
Souvik Banerjee
(
Groningen University
)
16:30 - 17:00
Room: Wallenbergsalen
We consider the algebra of simple operators defined in a time band in a CFT with a holographic dual. The action of these operators on the CFT vacuum can generate all low energy states in the CFT, and no operator within the algebra can annihilate the vacuum. For a time band smaller than the light crossing time of AdS, local excitations within the causal diamond in the centre of AdS are invisible to the algebra of simple operators on the boundary by causality. However, we show that if one goes beyond this algebra by considering all possible boundary operators inside the time band, it is possible to reconstruct local physics inside the diamond as well. Our construction therefore provides a toy model of black hole complementarity. This not only proves that such non-locality is a fundamental feature of quantum gravity that holds even in empty space, but also shows that the distinction between simple and complicated operators is a crucial feature of the approximate emergence of locality.
17:00
Extended black hole and entanglement thermodynamics in holography
-
Juan Pedraza
(
University of Amsterdam
)
Extended black hole and entanglement thermodynamics in holography
Juan Pedraza
(
University of Amsterdam
)
17:00 - 17:30
Room: Wallenbergsalen
I will review recent results on extending the laws of black hole thermodynamics where the gravity couplings are treated as additional thermodynamic variables. In the holographic context, varying these couplings can be interpreted as inducing an RG-flow in the space of field theories, with monotonicity theorems and associated phase transitions. In the second part of this talk I will present the extended laws of entanglement entropy that can be derived in this context. I will show that the extra contributions to the entanglement can capture additional information of the bulk theory that is not available in the standard formalism.
Friday, 19 August 2016
09:30
Recovering the spacetime metric from a holographic dual
-
Gary Horowitz
(
UC Santa Barbara
)
Recovering the spacetime metric from a holographic dual
Gary Horowitz
(
UC Santa Barbara
)
09:30 - 10:15
Room: Wallenbergsalen
Consider any asymptotically AdS spacetime. We introduce a special class of spacelike cross-sections of the boundary called light-cone cuts. We will first show that the conformal metric in the bulk (i.e. the metric up to an overall conformal factor) can be reconstructed just from the location of these cuts. We then show how the light-cone cuts can be determined from the dual field theory. Finally we show how (at least in some cases) the conformal factor can also be determined. This provides a new approach to determining the bulk geometry from the dual field theory. These results were obtained in collaboration with Netta Engelhardt.
10:15
Entanglement holography
-
Jan de Boer
(
University of Amsterdam
)
Entanglement holography
Jan de Boer
(
University of Amsterdam
)
10:15 - 11:00
Room: Wallenbergsalen
11:00
Coffee break
Coffee break
11:00 - 11:30
Room: Wallenbergsalen
11:30
Long-range longitudinal string spreading at six points: simulation of horizon infallers
-
Eva Silverstein
(
Stanford University
)
Long-range longitudinal string spreading at six points: simulation of horizon infallers
Eva Silverstein
(
Stanford University
)
11:30 - 12:15
Room: Wallenbergsalen
We analyze a tree-level six point scattering process in which two strings are separated longitudinally such that they could only interact directly via a non-local spreading effect such as that predicted by light cone gauge calculations and the Gross-Mende saddle point. One string, the `detector', is produced at a finite time with energy $E$ by an auxiliary $2\to 2$ sub-process, with kinematics such that it has sufficient resolution to detect the longitudinal spreading of an additional incoming string, the `source'. We test this hypothesis in a gauge-invariant S-matrix calculation convolved with an appropriate wavepacket, discussing several interesting subtleties in the calculation and interpretation. The amplitude exhibits support spread over the predicted large longitudinal separation $\sim\alpha' E$ between the central trajectories of the strings, simulating a comparable interaction between time-translated horizon infallers. This effect results from the inherent UV softness of string amplitudes, in sharp contrast to tree-level quantum field theory in a similar kinematic regime.
12:15
The black hole membrane at large D
-
Shiraz Minwalla
(
TIFR, Mumbai
)
The black hole membrane at large D
Shiraz Minwalla
(
TIFR, Mumbai
)
12:15 - 13:00
Room: Wallenbergsalen
13:00
Lunch break
Lunch break
13:00 - 14:30
Room: P
14:30
BMS vacua and black holes
-
Geoffrey Compere
(
ULB
)
BMS vacua and black holes
Geoffrey Compere
(
ULB
)
14:30 - 15:00
Room: Wallenbergsalen
I will present a construction of bms representations in the bulk spacetime for stationary metrics. I will discuss the resulting properties of the Poincare invariant vacua and the Schwarzschild black hole with BMS hair.
15:00
Boundary causality vs hyperbolicity for small black Holes in Gauss-Bonnet
-
Cynthia Keeler
(
Niels Bohr Institute
)
Boundary causality vs hyperbolicity for small black Holes in Gauss-Bonnet
Cynthia Keeler
(
Niels Bohr Institute
)
15:00 - 15:30
Room: Wallenbergsalen
Both boundary CFT causality and hyperbolicity of the bulk equations of motion constrain the coupling constant for Gauss-Bonnet gravity. We study these constraints for small black holes in AdS5. If we rule out solutions that violate local hyperbolicity via a `hyperbolicity censorship hypothesis', then we find the parameter space is not restricted beyond the $\lambda \lesssim 9/100$ limit from planar black holes.
15:30
Three-dimensional conformal higher spin theory
-
Bengt Nilsson
(
Chalmers University of Technology
)
Three-dimensional conformal higher spin theory
Bengt Nilsson
(
Chalmers University of Technology
)
15:30 - 16:00
Room: Wallenbergsalen
We analyse the non-linear frame field theory of conformal higher spins in three dimensions via its Chern-Simons formulation. Its relation to the metric formulation is explained. The full non-linear spin 3 Cotton equation with spin 4 fields and higher truncated away is derived. The coupling to scalar fields (AdS4 singletons) is given in terms of a star product unfolded equation. The reason for studying theories of this kind come from AdS4/CFT3 with Neumann boundary conditions for gauge fields in AdS4.
16:00
Coffee break
Coffee break
16:00 - 16:30
Room: Wallenbergsalen
16:30
New modes from higher curvature corrections in holography
-
Yegor Korovin
(
Albert Einstein Institute
)
New modes from higher curvature corrections in holography
Yegor Korovin
(
Albert Einstein Institute
)
16:30 - 17:00
Room: Wallenbergsalen
In gravitational theories involving higher curvature corrections the metric describes additional degrees of freedom beyond the graviton. Holographic duality maps these to operators in the dual CFT. We identify infinite families of theories for which these new modes cannot be truncated and the usual Fefferman-Graham expansion needs to be modified. New massive gravity in three dimensions and critical gravity in four dimensions are particular representatives of these families. We propose modified expansion, study the near-boundary behaviour of the metric and derive fall-off properties of the additional modes in theories involving higher derivative corrections. Based on http://arxiv.org/abs/1511.08747.
17:00
Towards higher spin bulk reconstruction from thermal O(N) correlators
-
Irene Amado
(
Stockholm U.
)
Towards higher spin bulk reconstruction from thermal O(N) correlators
Irene Amado
(
Stockholm U.
)
17:00 - 17:30
Room: Wallenbergsalen
A free O(N) vector model on a sphere has been conjectured to be dual to a higher spin theory on an AdS background. It displays an interesting thermal structure with a phase transition at temperatures of order \sqrt{N}. We attempt to shed further light on the nature of this phase transition by considering thermal correlation functions of singlet operators in the CFT. Above the transition an additional length scale emerges, below which the behavior tracks that of a free theory, exhibiting a characteristic logarithmic scaling with distance. At larger distances, the scaling returns to that of the low energy phase. We then provide a first attempt at a geometrical interpretation of this behavior and outline a method to reconstruct the dominant bulk geometry from the behavior of the correlators.
19:30
Buffet reception
Buffet reception
19:30 - 23:30
Room: Moderna Museet, Skeppsholmen
Saturday, 20 August 2016
09:30
Covariant entanglement constructs
-
Veronika Hubeny
(
UC Davis
)
Covariant entanglement constructs
Veronika Hubeny
(
UC Davis
)
09:30 - 10:15
Room: Wallenbergsalen
To elucidate the AdS/CFT dictionary, it is useful to consider fully general time-dependent situations, and use general covariance as a guide in constructing a map. One particularly interesting quantity, potentially revealing the underlying structure of bulk geometry, is entanglement. In case of holographic entanglement entropy in static situations, Headrick and Freedman have recently proposed an alternative to the Ryu-Takayanagi (entanglement entropy = minimal surface area) prescription. In this talk I will discuss covariant versions of this proposal.
10:15
A new perspective on the Schwinger-Keldysh formalism
-
Mukund Rangamani
(
UC Davis
)
A new perspective on the Schwinger-Keldysh formalism
Mukund Rangamani
(
UC Davis
)
10:15 - 11:00
Room: Wallenbergsalen
I will describe how the Schwinger-Keldysh formalism which is geared for computing time-ordered correlation functions in relativistic QFTs admits a set of topological symmetries. We will explore these symmetries for near-thermal systems and explain how they are useful in constraining low energy dynamics. We will specifically look at the construction of hydrodynamic effective field theories. Time permitting we will also touch upon other potential applications.
11:00
Coffee break
Coffee break
11:00 - 11:30
Room: Wallenbergsalen
11:30
Traversable wormholes via a double trace deformation
-
Daniel Jafferis
(
Harvard University
)
Traversable wormholes via a double trace deformation
Daniel Jafferis
(
Harvard University
)
11:30 - 12:15
Room: Wallenbergsalen
12:15
Emergent gravity in de Sitter space.
-
Erik Verlinde
(
University of Amsterdam
)
Emergent gravity in de Sitter space.
Erik Verlinde
(
University of Amsterdam
)
12:15 - 13:00
Room: Wallenbergsalen
In Anti-de Sitter space the emergence of gravity relies on the area law for entanglement entropy. Using insights from tensor networks and string theory we argue that de Sitter space contains a volume law contribution to the entropy, which overtakes the area law precisely at the cosmological horizon. Due the competition between area and volume law entanglement the microscopic states do not thermalise at sub-Hubble scales. When matter is included, this causes a memory effect in the form of an displacement of the entropy density. As a result the emergent laws of gravity contain, in addition to the familiar force law, an `elastic response' due to the entropy displacement. We estimate the strength of this extra `dark gravitational force' in terms the (baryonic) mass and the Hubble acceleration scale, and find good agreement with observed phenomena in galaxies and clusters.