Related papers: Extendibility of Werner States

Extendibility of Werner States

URL: http://arxiv.org/abs/2208.13743v2
Date: Thu, 22 Sep 2022 16:59:58 GMT
Title: Extendibility of Werner States
Authors: D\'avid Jakab and Adrian Solymos and Zolt\'an Zimbor\'as
Abstract summary: We investigate the two-sided symmetric extendibility problem of Werner states. We map this problem into the ground state problem of a highly symmetric spin-model Hamiltonian.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We investigate the two-sided symmetric extendibility problem of Werner states. The interplay of the unitary symmetry of these states and the inherent bipartite permutation symmetry of the extendibility scenario allows us to map this problem into the ground state problem of a highly symmetric spin-model Hamiltonian. We solve this ground state problem analytically by utilizing the representation theory of SU(d), in particular a result related to the dominance order of Young diagrams in Littlewood-Richarson decompositions. As a result, we obtain necessary and sufficient conditions for the extendibility of Werner states for arbitrary extension size and local dimension. Interestingly, the range of extendible states has a non-trivial trade-off between the extension sizes on the two sides. We compare our result with the two-sided extendibility problem of isotropic states, where there is no such trade-off.

Related papers

Long-range entanglement from spontaneous non-onsite symmetry breaking [3.3754780158324564]
We show a frustration-free lattice model exhibiting SSB of a non-onsite symmetry. We analytically prove the two-fold ground-state degeneracy and the existence of a finite energy gap. Our work reveals the exotic features of SSB of non-onsite symmetries, which may lie beyond the framework of topological holography.
arXiv Detail & Related papers (2024-11-07T18:59:51Z)
Non-equilibrium dynamics of charged dual-unitary circuits [44.99833362998488]
interplay between symmetries and entanglement in out-of-equilibrium quantum systems is currently at the centre of an intense multidisciplinary research effort. We show that one can introduce a class of solvable states, which extends that of generic dual unitary circuits. In contrast to the known class of solvable states, which relax to the infinite temperature state, these states relax to a family of non-trivial generalised Gibbs ensembles.
arXiv Detail & Related papers (2024-07-31T17:57:14Z)
Three perspectives on entropy dynamics in a non-Hermitian two-state system [41.94295877935867]
entropy dynamics as an indicator of physical behavior in an open two-state system with balanced gain and loss is presented. We distinguish the perspective taken in utilizing the conventional framework of Hermitian-adjoint states from an approach that is based on biorthogonal-adjoint states and a third case based on an isospectral mapping.
arXiv Detail & Related papers (2024-04-04T14:45:28Z)
Multipartite entanglement in the diagonal symmetric subspace [41.94295877935867]
For diagonal symmetric states, we show that there is no bound entanglement for $d = 3,4 $ and $N = 3$. We present a constructive algorithm to map multipartite diagonal symmetric states of qudits onto bipartite symmetric states of larger local dimension.
arXiv Detail & Related papers (2024-03-08T12:06:16Z)
Asymmetry activation and its relation to coherence under permutation operation [53.64687146666141]
A Dicke state and its decohered state are invariant for permutation. When another qubits state to each of them is attached, the whole state is not invariant for permutation, and has a certain asymmetry for permutation.
arXiv Detail & Related papers (2023-11-17T03:33:40Z)
Monogamy of highly symmetric states [1.756641221828634]
We investigate the extent to which two particles can be maximally entangled when they are also similarly entangled with other particles on a complete graph. To address this, we formulate and solve optimization problems that draw on concepts from many-body physics, computational complexity, and quantum cryptography.
arXiv Detail & Related papers (2023-09-28T17:55:21Z)
Emergence of non-Abelian SU(2) invariance in Abelian frustrated fermionic ladders [37.69303106863453]
We consider a system of interacting spinless fermions on a two-leg triangular ladder with $pi/2$ magnetic flux per triangular plaquette. Microscopically, the system exhibits a U(1) symmetry corresponding to the conservation of total fermionic charge, and a discrete $mathbbZ$ symmetry. At the intersection of the three phases, the system features a critical point with an emergent SU(2) symmetry.
arXiv Detail & Related papers (2023-05-11T15:57:27Z)
Absence of Mobility Edge in Short-range Uncorrelated Disordered Model: Coexistence of Localized and Extended States [0.0]
We provide an example of a nearest-neighbor tight-binding disordered model which carries both localized and extended states without forming the mobility edge (ME) We map the above model to the 1D Anderson model with matrix-size- and position-dependent hopping and confirm the coexistence of localized and extended states. In addition, the mapping shows that the extended states are non-ergodic and allows to analytically estimate their fractal dimensions.
arXiv Detail & Related papers (2023-05-03T18:00:03Z)
Entanglement resolution of free Dirac fermions on a torus [68.8204255655161]
We first evaluate the SRE for massless Dirac fermions in a system at finite temperature and size. The charge-dependent entropies turn out to be equally distributed among all the symmetry sectors at leading order.
arXiv Detail & Related papers (2022-12-14T14:54:35Z)
Entanglement and fermionization of two distinguishable fermions in a strict and non strict one-dimensional space [0.0]
We present two alternative representations of the ground state that we associate with two different types of one-dimensional spaces. We find that the entanglement of the ground state is strongly conditioned by those one-dimensional space features. In the strongly repulsive regime the ground state changes smoothly from a superposition of Slater-like states to a finite superposition of Slaters.
arXiv Detail & Related papers (2021-08-23T20:17:58Z)
The Decompositions of Werner and Isotropic States [0.5156484100374059]
decompositions of separable Werner state, and also isotropic state, are well-known tough issues in quantum information theory. We successfully get the decomposition for arbitrary $Ntimes N$ Werner state in terms of regular simplexes. The decomposition of isotropic state is found to be related to the decomposition of Werner state via partial transposition.
arXiv Detail & Related papers (2020-03-02T07:13:04Z)

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