Related papers: Operational Quantum Reference Frame Transformations

Operational Quantum Reference Frame Transformations

URL: http://arxiv.org/abs/2303.14002v3
Date: Mon, 26 Aug 2024 07:51:55 GMT
Title: Operational Quantum Reference Frame Transformations
Authors: Titouan Carette, Jan Głowacki, Leon Loveridge,
Abstract summary: We provide a general, operationally motivated framework for quantum reference frames and their transformations. The work is built around the notion of operational equivalence, in which quantum states that cannot be physically distinguished are identified. We give an explicit realisation in the setting that the initial frame admits a highly localized state with respect to the frame observable.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Quantum reference frames are needed in quantum theory for much the same reasons that reference frames are in classical theories: to manifest invariance in line with fundamental relativity principles and to provide a basis for the definition of observable quantities. Though around since the 1960s, and used in a wide range of applications, only recently has the means for transforming descriptions between different quantum reference frames been tackled in detail. In this work, we provide a general, operationally motivated framework for quantum reference frames and their transformations, holding for locally compact groups. The work is built around the notion of operational equivalence, in which quantum states that cannot be physically distinguished are identified. For example, we describe the collection of relative observables as a subspace of the algebra of invariants on the composite of system and frame, and from here the set of relative states is constructed through the identification of states which cannot be distinguished by relative observables. Through the notion of framed observables -- the formation of joint observables of system and frame -- of which the relative observables can be understood as examples, quantum reference frame transformations are then maps between equivalence classes of relative states which respect the framing. We give an explicit realisation in the setting that the initial frame admits a highly localized state with respect to the frame observable. The transformations are invertible exactly when the final frame also has such a localizability property. The procedure we present is in operational agreement with other recent inequivalent constructions on the domain of common applicability, but extends them in a number of ways, and weakens claims of entanglement generation through frame changes.

Related papers

A Canonicalization Perspective on Invariant and Equivariant Learning [54.44572887716977]
We introduce a canonicalization perspective that provides an essential and complete view of the design of frames. We show that there exists an inherent connection between frames and canonical forms. We design novel frames for eigenvectors that are strictly superior to existing methods.
arXiv Detail & Related papers (2024-05-28T17:22:15Z)
Operational Quantum Frames: An operational approach to quantum reference frames [0.0]
We introduce an operational notion of a quantum reference frame -- which is defined as a quantum system equipped with a covariant positive operator-valued measure (POVM) We show that when the frame is localizable, meaning that it allows for states that give rise to a highly localized probability distribution of the frame's observable, by restricting the relative description upon such localized frame preparation we recover the usual, non-relational formalism of quantum mechanics.
arXiv Detail & Related papers (2023-04-14T09:30:35Z)
Quantum Frames of Reference and the Noncommutative Values of Observables [0.0]
We show how the value' of an observable for a fixed state change can be translated. The essence of the quantum reference frame transformations is to have the quantum fluctuations, and even entanglement, of the physical object taken into account.
arXiv Detail & Related papers (2021-12-06T04:37:56Z)
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)
Relative subsystems and quantum reference frame transformations [0.0]
We derive quantum reference frame transformations from first principles, using only standard quantum theory. We find more general transformations than those studied so far, which are valid only in a restricted subspace. Our framework contains additional degrees of freedom in the form of an "extra particle," which carries information about the quantum features of reference frame states.
arXiv Detail & Related papers (2021-10-25T18:23:28Z)
Quantum indistinguishability through exchangeable desirable gambles [69.62715388742298]
Two particles are identical if all their intrinsic properties, such as spin and charge, are the same. Quantum mechanics is seen as a normative and algorithmic theory guiding an agent to assess her subjective beliefs represented as (coherent) sets of gambles. We show how sets of exchangeable observables (gambles) may be updated after a measurement and discuss the issue of defining entanglement for indistinguishable particle systems.
arXiv Detail & Related papers (2021-05-10T13:11:59Z)
Quantum Relativity of Subsystems [58.720142291102135]
We show that different reference frame perspectives induce different sets of subsystem observable algebras, which leads to a gauge-invariant, frame-dependent notion of subsystems and entanglement. Such a QRF perspective does not inherit the distinction between subsystems in terms of the corresponding tensor factorizability of the kinematical Hilbert space and observable algebra. Since the condition for this to occur is contingent on the choice of QRF, the notion of subsystem locality is frame-dependent.
arXiv Detail & Related papers (2021-03-01T19:00:01Z)
The group structure of dynamical transformations between quantum reference frames [0.0]
We identify the canonical transformations on the phase space of the quantum systems comprising the quantum reference frames. We show that these transformations close a group structure defined by a Lie algebra, which is different from the usual Galilei algebra of quantum mechanics.
arXiv Detail & Related papers (2020-12-31T17:42:13Z)
Quantum particle across Grushin singularity [77.34726150561087]
We study the phenomenon of transmission across the singularity that separates the two half-cylinders. All the local realisations of the free (Laplace-Beltrami) quantum Hamiltonian are examined as non-equivalent protocols of transmission/reflection. This allows to comprehend the distinguished status of the so-called bridging' transmission protocol previously identified in the literature.
arXiv Detail & Related papers (2020-11-27T12:53:23Z)
Equivalence of approaches to relational quantum dynamics in relativistic settings [68.8204255655161]
We show that the trinity' of relational quantum dynamics holds in relativistic settings per frequency superselection sector. We ascribe the time according to the clock subsystem to a POVM which is covariant with respect to its (quadratic) Hamiltonian.
arXiv Detail & Related papers (2020-07-01T16:12:24Z)
Relational observables, reference frames, and conditional probabilities [0.0]
We show how conditional expectation values of worldline tensor fields are related to quantum averages of suitably defined relational observables. We analyze a recollapsing cosmological model, for which we construct unitarily evolving quantum relational observables.
arXiv Detail & Related papers (2020-06-09T21:54:18Z)

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