Related papers: The Möbius Game: A Quantum-Inspired Test of General Relativity

The Möbius Game: A Quantum-Inspired Test of General Relativity

URL: http://arxiv.org/abs/2407.17203v1
Date: Wed, 24 Jul 2024 12:03:10 GMT
Title: The Möbius Game: A Quantum-Inspired Test of General Relativity
Authors: Eleftherios-Ermis Tselentis, Ämin Baumeler,
Abstract summary: A general-relativistic violation of that inequality certifies change of curvature. A quantum-mechanical violation of a Bell inequality certifies a source of entanglement.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We present a tight inequality to test the dynamical nature of spacetime. A general-relativistic violation of that inequality certifies change of curvature, in the same sense as a quantum-mechanical violation of a Bell inequality certifies a source of entanglement. The inequality arises from a minimal generalization of the Bell setup. It represents a limit on the winning chance of a collaborative multi-agent game played on the M\"obius graph. A long version of this Letter including other games and how these games certify the dynamical character of the celebrated quantum switch is accessible as arXiv:2309.15752 [gr-qc].

Related papers

Global Phase Helps in Quantum Search: Yet Another Look at the Welded Tree Problem [55.80819771134007]
In this paper, we give a short proof of the optimal linear hitting time for a welded tree problem by a discrete-time quantum walk. The same technique can be applied to other 1-dimensional hierarchical graphs.
arXiv Detail & Related papers (2024-04-30T11:45:49Z)
Photonic implementation of the quantum Morra game [69.65384453064829]
We study a faithful translation of a two-player quantum Morra game, which builds on previous work by including the classical game as a special case. We propose a natural deformation of the game in the quantum regime in which Alice has a winning advantage, breaking the balance of the classical game. We discuss potential applications of the quantum Morra game to the study of quantum information and communication.
arXiv Detail & Related papers (2023-11-14T19:41:50Z)
Bell inequalities with overlapping measurements [52.81011822909395]
We study Bell inequalities where measurements of different parties can have overlap. This allows to accommodate problems in quantum information. The scenarios considered show an interesting behaviour with respect to Hilbert space dimension, overlap, and symmetry.
arXiv Detail & Related papers (2023-03-03T18:11:05Z)
The quantum commuting model (Ia): The CHSH game and other examples: Uniqueness of optimal states [91.3755431537592]
We use the universal description of quantum commuting correlations as state space on the universal algebra for two player games. We find that the CHSH game leaves a single optimal state on this common algebra.
arXiv Detail & Related papers (2022-10-07T17:38:31Z)
Interpolation between modified logarithmic Sobolev and Poincare inequalities for quantum Markovian dynamics [12.151998897427012]
We show that the quantum Beckner's inequalities interpolate between the Sobolev-type inequalities and the Poincar'e inequality. We introduce a new class of quantum transport distances $W_2,p$ interpolating the quantum 2-Wasserstein distance by Carlen and Maas. We prove that the positive Ricci curvature implies the quantum Beckner's inequality, from which a transport cost and Poincar'e inequalities can follow.
arXiv Detail & Related papers (2022-07-13T18:19:24Z)
Optimality of any pair of incompatible rank-one projective measurements for some non-trivial Bell inequality [0.0]
Bell non-locality represents one of the most striking departures of quantum mechanics from classical physics. We show that for any pair of rank-one projective measurements, there exists a Bell inequality that is maximally violated by this pair. When investigating the robustness of these violations to noise, we demonstrate that the realization which is most robust to noise is not generated by MUBs.
arXiv Detail & Related papers (2021-12-14T17:41:05Z)
Optimal bounds on the speed of subspace evolution [77.34726150561087]
In contrast to the basic Mandelstam-Tamm inequality, we are concerned with a subspace subject to the Schroedinger evolution. By using the concept of maximal angle between subspaces we derive optimal bounds on the speed of such a subspace evolution. These bounds may be viewed as further generalizations of the Mandelstam-Tamm inequality.
arXiv Detail & Related papers (2021-11-10T13:32:15Z)
Non-Locality$\neq$Quantum Entanglement [0.0]
People expect that pure state entanglement is relevant to the non-locality. We consider all possible 3-qubit operators with a symmetric permutation. We conclude Non-Locality$neq$Quantum Entanglement''
arXiv Detail & Related papers (2021-09-08T18:44:03Z)
Tripartite Entanglement and Quantum Correlation [0.0]
The violation of Mermin's inequality is not a proper diagnosis due to the non-monotonic behavior. Each classification quantifies Quantum Entanglement by the total concurrence.
arXiv Detail & Related papers (2021-03-04T12:17:55Z)
Non-Boolean Hidden Variables model reproduces Quantum Mechanics' predictions for Bell's experiment [91.3755431537592]
Theory aimed to violate Bell's inequalities must start by giving up Boolean logic. "Hard" problem is to predict the time values when single particles are detected. "Soft" problem is to explain the violation of Bell's inequalities within (non-Boolean) Local Realism.
arXiv Detail & Related papers (2020-05-20T21:46:35Z)
All two-party facet Bell inequalities are violated by Almost Quantum correlations [0.13844779265721088]
We show that every tight Bell inequality is violated by 'Almost Quantum' correlations. We exploit connections between Bell correlations and the graph-theoretic Lov'asz-theta set, discovered by Cabello-Severini-Winter. We derive novel (almost) quantum Bell inequalities, which may be of independent interest for self-testing applications.
arXiv Detail & Related papers (2020-04-16T14:15:38Z)

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