Related papers: Embedding cyclic information-theoretic structures in acyclic spacetimes: no-go results for indefinite causality

Embedding cyclic information-theoretic structures in acyclic spacetimes: no-go results for indefinite causality

URL: http://arxiv.org/abs/2203.11245v4
Date: Mon, 07 Oct 2024 12:35:42 GMT
Title: Embedding cyclic information-theoretic structures in acyclic spacetimes: no-go results for indefinite causality
Authors: V. Vilasini, Renato Renner,
Abstract summary: We develop a theoretical framework that connects the two causality notions, while also clearly distinguishing them. We shed light on the links between indefinite and cyclic causality, and on questions regarding their physicality. Our work also sheds light on the limits of quantum information processing in spacetime.
Score: 1.7802147489386633
License:
Abstract: The notions of causality adopted within the quantum information and spacetime physics communities are distinct. Although both notions play a role in physical experiments, their general interplay is little understood in theory. We develop a theoretical framework that connects the two causality notions, while also clearly distinguishing them. The framework describes a composition of quantum operations through feedback loops, and the embedding of the resulting, possibly cyclic information-theoretic structure in an acyclic spacetime structure. Relativistic causality (which forbids superluminal communication) follows as a graph-theoretic compatibility condition between the two structures. Formulating indefinite causal order (ICO) processes in our framework, we shed light on the links between indefinite and cyclic causality, and on questions regarding their physicality. In particular, there are several experiments that claim to implement ICO processes in Minkowski spacetime, presenting an apparent paradox: how can an indefinite information-theoretic causal structure be consistent with a definite spacetime causal structure? We address this through no-go theorems, showing that as a consequence of relativistic causality, (a) realisations of ICO processes necessarily involve the non-localisation of systems in spacetime and (b) will nevertheless admit an explanation in terms of a definite and acyclic causal order process, at a fine-grained level. This fully resolves the apparent paradox and bears implications for the physical interpretation of ICO experiments, and is achieved by introducing the concept of fine-graining that allows causal structures to be analysed at different levels of detail. Our work also sheds light on the limits of quantum information processing in spacetime and on the operational meaning of indefinite causality, within and beyond the context of a fixed spacetime.

Related papers

Fundamental limits for realising quantum processes in spacetime [1.7802147489386633]
We derive no-go theorems for quantum experiments realisable in classical background spacetimes. Our first theorem implies that realisations of ICO processes that do not violate relativistic causality must involve the non-localization of systems in spacetime. The second theorem shows that for any such realisation of an ICO process, there exists a more fine-grained description in terms of a definite and acyclic causal order process.
arXiv Detail & Related papers (2024-08-23T21:41:49Z)
A Measure-Theoretic Axiomatisation of Causality [55.6970314129444]
We argue in favour of taking Kolmogorov's measure-theoretic axiomatisation of probability as the starting point towards an axiomatisation of causality. Our proposed framework is rigorously grounded in measure theory, but it also sheds light on long-standing limitations of existing frameworks.
arXiv Detail & Related papers (2023-05-19T13:15:48Z)
Compatibility of Cyclic Causal Structures with Spacetime in General Theories with Free Interventions [0.0]
We show the possibility of operationally detectable causal loops embedded in (1+1)-Minkowski spacetime without superluminal signalling. We establish new properties of HO affects relations and apply them to infer causal structures. We study the embedding of information-theoretic causal structures into partially ordered spacetimes.
arXiv Detail & Related papers (2022-11-07T14:30:03Z)
Is the relativistic Structure of Spacetime Ontic or Epistemic? [0.0]
We argue that Bell's nonlocal correlations cannot readily be explained within the standard relativistic framework. This suggests that we should re-examine our understanding of spacetime.
arXiv Detail & Related papers (2022-02-16T19:14:36Z)
Unification of Random Dynamical Decoupling and the Quantum Zeno Effect [68.8204255655161]
We show that the system dynamics under random dynamical decoupling converges to a unitary with a decoupling error that characteristically depends on the convergence speed of the Zeno limit. This reveals a unification of the random dynamical decoupling and the quantum Zeno effect.
arXiv Detail & Related papers (2021-12-08T11:41:38Z)
Non-standard entanglement structure of local unitary self-dual models as a saturated situation of repeatability in general probabilistic theories [61.12008553173672]
We show the existence of infinite structures of quantum composite system such that it is self-dual with local unitary symmetry. We also show the existence of a structure of quantum composite system such that non-orthogonal states in the structure are perfectly distinguishable.
arXiv Detail & Related papers (2021-11-29T23:37:58Z)
Time and Evolution in Quantum and Classical Cosmology [68.8204255655161]
We show that it is neither necessary nor sufficient for the Poisson bracket between the time variable and the super-Hamiltonian to be equal to unity in all of the phase space. We also discuss the question of switching between different internal times as well as the Montevideo interpretation of quantum theory.
arXiv Detail & Related papers (2021-07-02T09:17:55Z)
Background Independence and Quantum Causal Structure [0.0]
One of the key ways in which quantum mechanics differs from relativity is that it requires a fixed background reference frame for spacetime. A combination of the two theories is expected to yield non-classical, or "indefinite", causal structures. We present a background-independent formulation of the process matrix formalism.
arXiv Detail & Related papers (2021-06-02T09:13:13Z)
Wavefunctions and Minkowski Space-Time: On the Reconciliation of Quantum Theory with Special Relativity [0.0]
The implications of the relativistic space-time structure for a physical description by quantum mechanical wave-functions are investigated. An analysis of the wave-function alone does not suffice to answer the question of relativistic compatibility of the theory. The actual events in space time, which are predicted and described by the theory, are crucial.
arXiv Detail & Related papers (2020-08-29T17:59:28Z)
Projection evolution and quantum spacetime [68.8204255655161]
We discuss the problem of time in quantum mechanics. An idea of construction of a quantum spacetime as a special set of the allowed states is presented. An example of a structureless quantum Minkowski-like spacetime is also considered.
arXiv Detail & Related papers (2019-10-24T14:54:11Z)
Interference of Clocks: A Quantum Twin Paradox [39.645665748998816]
Phase of matter waves depends on proper time and is susceptible to special-relativistic (kinematic) and gravitational (redshift) time dilation. It is conceivable that atom interferometers measure general-relativistic time-dilation effects. We show that closed light-pulse interferometers without clock transitions during the pulse sequence are not sensitive to gravitational time dilation in a linear potential.
arXiv Detail & Related papers (2019-05-22T12:30:57Z)

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

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.