Pseudo standard entanglement structure cannot be distinguished from
standard entanglement structure
- URL: http://arxiv.org/abs/2203.07968v3
- Date: Fri, 23 Dec 2022 01:23:55 GMT
- Title: Pseudo standard entanglement structure cannot be distinguished from
standard entanglement structure
- Authors: Hayato Arai and Masahito Hayashi
- Abstract summary: An experimental verification of the maximally entangled state does not guarantee that the state is exactly the same as the maximally entangled state.
In our setting, any maximally entangled state can be arbitrarily approximated by an entangled state that belongs to our obtained pseudo standard entanglement structure.
- Score: 61.12008553173672
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: An experimental verification of the maximally entangled state ensures that
the constructed state is close to the maximally entangled state, but it does
not guarantee that the state is exactly the same as the maximally entangled
state. Further, the entanglement structure is not uniquely determined in
general probabilistic theories even if we impose that the local subsystems are
fully equal to quantum systems. Therefore, the existence of the maximally
entangled state depends on whether the standard entanglement structure is
valid. To examine this issue, we introduce pseudo standard entanglement
structure as a structure of quantum composite system under natural assumptions
based on the existence of projective measurements and the existence of
approximations of all maximally entangled standard states. Surprisingly, there
exist infinitely many pseudo standard entanglement structures different from
the standard entanglement structure. In our setting, any maximally entangled
state can be arbitrarily approximated by an entangled state that belongs to our
obtained pseudo standard entanglement structure. That is, experimental
verification does not exclude the possibility of our obtained pseudo standard
entanglement structure that is different from the standard entanglement
structure. On the other hand, such pseudo structures never possess global
unitary symmetry, i.e., global unitary symmetry is essential condition for the
standard entanglement structure.
Related papers
- Late-time ensembles of quantum states in quantum chaotic systems [0.0]
We study the universal structure of late-time ensembles in quantum chaotic systems with symmetries.
Our work shows that even though midspectrum states do not explore ergodically all of phase space at late times, the late-time ensemble typically -- but not always -- exhibits the same average and sample-to-sample fluctuations as the Haar ensemble.
arXiv Detail & Related papers (2024-09-03T18:00:29Z) - Absolute dimensionality of quantum ensembles [41.94295877935867]
The dimension of a quantum state is traditionally seen as the number of superposed distinguishable states in a given basis.
We propose an absolute, i.e.basis-independent, notion of dimensionality for ensembles of quantum states.
arXiv Detail & Related papers (2024-09-03T09:54:15Z) - Sufficient condition for universal quantum computation using bosonic
circuits [44.99833362998488]
We focus on promoting circuits that are otherwise simulatable to computational universality.
We first introduce a general framework for mapping a continuous-variable state into a qubit state.
We then cast existing maps into this framework, including the modular and stabilizer subsystem decompositions.
arXiv Detail & Related papers (2023-09-14T16:15:14Z) - Derivation of Standard Quantum Theory via State Discrimination [53.64687146666141]
General Probabilistic Theories (GPTs) is a new information theoretical approach to single out standard quantum theory.
We focus on the bound of the performance for an information task called state discrimination in general models.
We characterize standard quantum theory out of general models in GPTs by the bound of the performance for state discrimination.
arXiv Detail & Related papers (2023-07-21T00:02:11Z) - Special features of the Weyl-Heisenberg Bell basis imply unusual
entanglement structure of Bell-diagonal states [0.021756081703276]
We show that a standard construction of a complete orthonormal Bell-basis by Weyl-Heisenberg operators has strong implication on error correction schemes.
In particular, it implies a equivalence between a Pauli channel and a twirl channel.
Other complete orthonormal Bell-bases do break the equivalence and lead to a completely different entanglement structure.
arXiv Detail & Related papers (2023-07-20T09:40:59Z) - 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) - Entanglement and superposition are equivalent concepts in any physical
theory [6.76734184727575]
We prove that any two general probabilistic theories (GPTs) are entangleable.
We show that all non-classical GPTs exhibit a strong form of incompatibility of states and measurements.
arXiv Detail & Related papers (2021-09-09T17:44:11Z) - 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) - Emergence of classical behavior in the early universe [68.8204255655161]
Three notions are often assumed to be essentially equivalent, representing different facets of the same phenomenon.
We analyze them in general Friedmann-Lemaitre- Robertson-Walker space-times through the lens of geometric structures on the classical phase space.
The analysis shows that: (i) inflation does not play an essential role; classical behavior can emerge much more generally; (ii) the three notions are conceptually distinct; classicality can emerge in one sense but not in another.
arXiv Detail & Related papers (2020-04-22T16:38:25Z)
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.