Related papers: A consolidating review of Spekkens' toy theory

A consolidating review of Spekkens' toy theory

URL: http://arxiv.org/abs/2105.03277v1
Date: Fri, 7 May 2021 14:10:01 GMT
Title: A consolidating review of Spekkens' toy theory
Authors: Ladina Hausmann, Nuriya Nurgalieva, L\'idia del Rio
Abstract summary: Spekkens' toy theory is based off a simple premise: "What if we took a common classical theory and added the uncertainty principle as a postulate?" We consolidate different approaches to Spekkens' toy theory, including the stabilizer formalism and the generalization to arbitrary dimensions.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: In order to better understand a complex theory like quantum mechanics, it is sometimes useful to take a step back and create alternative theories, with more intuitive foundations, and examine which features of quantum mechanics can be reproduced by such a foil theory. A prominent example is Spekkens' toy theory, which is based off a simple premise: "What if we took a common classical theory and added the uncertainty principle as a postulate?" In other words, the theory imposes an epistemic restriction on our knowledge about a physical system: only half of the variables can ever be known to an observer. Like good science fiction, from this simple principle a rich behaviour emerges, most notoriously when we compose several systems. The toy theory emulates some aspects of quantum non-locality, although crucially it is still a non-contextual model. In this pedagogical review we consolidate different approaches to Spekkens' toy theory, including the stabilizer formalism and the generalization to arbitrary dimensions, completing them with new results where necessary. In particular, we introduce a general characterization of measurements, superpositions and entanglement in the toy theory.

Related papers

Minimal operational theories: classical theories with quantum features [41.94295877935867]
We show that almost all minimal theories with conditioning satisfy two quantum no-go theorems. As a relevant example, we construct a minimal toy-theory with conditioning where all systems are classical.
arXiv Detail & Related papers (2024-08-02T16:24:09Z)
Epistemic Horizons From Deterministic Laws: Lessons From a Nomic Toy Theory [0.0]
We show that nomic toy theory has incompatible measurements and the complete state of a physical system cannot be known. We reconcile this with measurement uncertainty as an aspect of the inseparability of subjects and objects. This work invites further investigations, such as the one of (full) quantum theory.
arXiv Detail & Related papers (2024-06-25T14:23:49Z)
Relaxation of first-class constraints and the quantization of gauge theories: from "matter without matter" to the reappearance of time in quantum gravity [72.27323884094953]
We make a conceptual overview of an approach to the initial-value problem in canonical gauge theories. We stress how the first-class phase-space constraints may be relaxed if we interpret them as fixing the values of new degrees of freedom.
arXiv Detail & Related papers (2024-02-19T19:00:02Z)
Testing Quantum Gravity using Pulsed Optomechanical Systems [13.650870855008112]
We consider the Schr"odinger-Newton (SN) theory and the Correlated Worldline (CWL) theory, and show that they can be distinguished from conventional quantum mechanics. We find that discriminating between the theories will be very difficult until experimental control over low frequency quantum optomechanical systems is pushed further.
arXiv Detail & Related papers (2023-11-03T17:06:57Z)
Quantum Theory Needs (And Probably Has) Real Reduction [0.0]
It appears that for quantum theory to be viable in a realist sense, it must possess genuine, physical non-unitarity. Penrose's theory of gravitation-induced collapse and the Transactional Interpretation are discussed.
arXiv Detail & Related papers (2023-04-20T21:25:23Z)
Testing quantum theory by generalizing noncontextuality [0.0]
We prove that only Jordan-algebraic state spaces are exactly embeddable into quantum theory. We propose an experimental test of quantum theory by probing single physical systems.
arXiv Detail & Related papers (2021-12-17T19:00:24Z)
Quantum realism: axiomatization and quantification [77.34726150561087]
We build an axiomatization for quantum realism -- a notion of realism compatible with quantum theory. We explicitly construct some classes of entropic quantifiers that are shown to satisfy almost all of the proposed axioms.
arXiv Detail & Related papers (2021-10-10T18:08:42Z)
Resource theory of imaginarity: Quantification and state conversion [48.7576911714538]
Resource theory of imaginarity has been introduced, allowing for a systematic study of complex numbers in quantum mechanics and quantum information theory. We investigate imaginarity quantification, focusing on the geometric imaginarity and the robustness of imaginarity, and apply these tools to the state conversion problem in imaginarity theory. Our study reveals the significance of complex numbers in quantum physics, and proves that imaginarity is a resource in optical experiments.
arXiv Detail & Related papers (2021-03-02T15:30:27Z)
Quantum Darwinism and the spreading of classical information in non-classical theories [0.0]
Quantum Darwinism posits that the emergence of a classical reality relies on the spreading of classical information from a quantum system to many parts of its environment. We find that every theory with non-classical features that admits this idealized spreading of classical information must have both entangled states and entangled measurements. Our result suggests the counter-intuitive general principle that in the presence of local non-classicality, a classical world can only emerge if this non-classicality can be "amplified" to a form of entanglement.
arXiv Detail & Related papers (2020-12-11T18:40:16Z)
Classicality without local discriminability: decoupling entanglement and complementarity [0.0]
An operational probabilistic theory where all systems are classical, and all pure states of composite systems are entangled, is constructed. We demonstrate that the presence of entanglement is independent of the existence of incompatible measurements. We also prove the existence, in the theory, of a universal processor.
arXiv Detail & Related papers (2020-08-10T10:30:47Z)
From a quantum theory to a classical one [117.44028458220427]
We present and discuss a formal approach for describing the quantum to classical crossover. The method was originally introduced by L. Yaffe in 1982 for tackling large-$N$ quantum field theories.
arXiv Detail & Related papers (2020-04-01T09:16:38Z)

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