Related papers: Bulk reconstruction and non-isometry in the backwards-forwards holographic black hole map

Bulk reconstruction and non-isometry in the backwards-forwards holographic black hole map

URL: http://arxiv.org/abs/2311.12921v2
Date: Mon, 4 Dec 2023 17:53:38 GMT
Title: Bulk reconstruction and non-isometry in the backwards-forwards holographic black hole map
Authors: Oliver DeWolfe and Kenneth Higginbotham
Abstract summary: backwards-forwards map is a generalization of the non-isometric holographic maps of the black hole interior of Akers, Engelhardt, Harlow, Penington, and Vardhan. We show that while both versions successfully reproduce the Page curve, the version involving post-selection as the final step, dubbed the backwards-forwards-post-selection (BFP) map, has the desirable properties of being non-isometric but isometric on average and providing state-dependent reconstruction of bulk operators.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The backwards-forwards map, introduced as a generalization of the non-isometric holographic maps of the black hole interior of Akers, Engelhardt, Harlow, Penington, and Vardhan to include non-trivial dynamics in the effective description, has two possible formulations differing in when the post-selection is performed. While these two forms are equivalent on the set of dynamically generated states -- states formed from unitary time evolution acting on well-defined initial configurations of infalling matter -- they differ on the generic set of states necessary to describe the apparent world of the infalling observer. We show that while both versions successfully reproduce the Page curve, the version involving post-selection as the final step, dubbed the backwards-forwards-post-selection (BFP) map, has the desirable properties of being non-isometric but isometric on average and providing state-dependent reconstruction of bulk operators, while the other version does not. Thus the BFP map is a suitable non-isometric code describing the black hole interior including interior interactions.

Related papers

Internal structure of gauge-invariant Projected Entangled Pair States [0.0]
Projected entangled pair states (PEPS) allow encoding symmetries, either global or local (gauge), naturally. PEPS with local symmetries have increasingly been used in the study of non-perturbative regimes of lattice gauge theories. We study the internal structure of projected entangled pair states with a gauge symmetry.
arXiv Detail & Related papers (2024-10-24T17:37:37Z)
Geometry of degenerate quantum states, configurations of $m$-planes and invariants on complex Grassmannians [55.2480439325792]
We show how to reduce the geometry of degenerate states to the non-abelian connection $A$. We find independent invariants associated with each triple of subspaces. Some of them generalize the Berry-Pancharatnam phase, and some do not have analogues for 1-dimensional subspaces.
arXiv Detail & Related papers (2024-04-04T06:39:28Z)
Identifying gap-closings in open non-Hermitian systems by Biorthogonal Polarization [0.0]
We investigate gap-closings in one- and two-dimensional tight-binding models with two bands, containing non-Hermitian hopping terms, and open boundary conditions imposed along one direction. The non-Hermiticity results in the failure of the familiar notions of bulk-boundary correspondence found for Hermitian systems.
arXiv Detail & Related papers (2024-01-22T18:56:46Z)
Stacked tree construction for free-fermion projected entangled pair states [0.6144680854063939]
We propose a divide-and-conquer approach to construct a PEPS representation for free-fermion states admitting descriptions in terms of filling exponentially localized Wannier functions. We demonstrate our construction for states in one and two dimensions, including the ground state of an obstructed atomic insulator on the square lattice.
arXiv Detail & Related papers (2023-08-18T08:13:35Z)
Non-isometric codes for the black hole interior from fundamental and effective dynamics [0.0]
We introduce a new holographic map for encoding black hole interiors by including both fundamental and effective dynamics. This map is constructed by evolving a state in the effective, semiclassical gravity description of the interior backwards in time. We show the map is equivariant with respect to time evolution, and independent of any interactions outside the black hole.
arXiv Detail & Related papers (2023-04-24T18:00:01Z)
Holographic Codes from Hyperinvariant Tensor Networks [70.31754291849292]
We show that a new class of exact holographic codes, extending the previously proposed hyperinvariant tensor networks into quantum codes, produce the correct boundary correlation functions. This approach yields a dictionary between logical states in the bulk and the critical renormalization group flow of boundary states.
arXiv Detail & Related papers (2023-04-05T20:28:04Z)
Orthogonal Matrix Retrieval with Spatial Consensus for 3D Unknown-View Tomography [58.60249163402822]
Unknown-view tomography (UVT) reconstructs a 3D density map from its 2D projections at unknown, random orientations. The proposed OMR is more robust and performs significantly better than the previous state-of-the-art OMR approach.
arXiv Detail & Related papers (2022-07-06T21:40:59Z)
Geometric phase in a dissipative Jaynes-Cummings model: theoretical explanation for resonance robustness [68.8204255655161]
We compute the geometric phases acquired in both unitary and dissipative Jaynes-Cummings models. In the dissipative model, the non-unitary effects arise from the outflow of photons through the cavity walls. We show the geometric phase is robust, exhibiting a vanishing correction under a non-unitary evolution.
arXiv Detail & Related papers (2021-10-27T15:27:54Z)
NeuroMorph: Unsupervised Shape Interpolation and Correspondence in One Go [109.88509362837475]
We present NeuroMorph, a new neural network architecture that takes as input two 3D shapes. NeuroMorph produces smooth and point-to-point correspondences between them. It works well for a large variety of input shapes, including non-isometric pairs from different object categories.
arXiv Detail & Related papers (2021-06-17T12:25:44Z)
Relevant OTOC operators: footprints of the classical dynamics [68.8204255655161]
The OTOC-RE theorem relates the OTOCs summed over a complete base of operators to the second Renyi entropy. We show that the sum over a small set of relevant operators, is enough in order to obtain a very good approximation for the entropy. In turn, this provides with an alternative natural indicator of complexity, i.e. the scaling of the number of relevant operators with time.
arXiv Detail & Related papers (2020-07-31T19:23:26Z)
Thermal states are vital: Entanglement Wedge Reconstruction from Operator-Pushing [0.0]
We give a general construction of a setup that verifies bulk reconstruction, conservation of relative entropies, and equality of modular flows between the bulk and the boundary. We show that if the boundary dynamics allow for the existence of a KMS state, physically relevant Hilbert spaces and von Neumann algebras can be constructed directly from our framework.
arXiv Detail & Related papers (2020-05-14T17:59:59Z)

This list is automatically generated from the titles and abstracts of the papers in this site.