Related papers: Parameterized bipartite entanglement measures and entanglement constraints

Parameterized bipartite entanglement measures and entanglement constraints

URL: http://arxiv.org/abs/2503.14245v1
Date: Tue, 18 Mar 2025 13:32:21 GMT
Title: Parameterized bipartite entanglement measures and entanglement constraints
Authors: Wen Zhou, Zhong-Xi Shen, Dong-Ping Xuan, Zhi-Xi Wang, Shao-Ming Fei,
Abstract summary: We prove a novel class of parameterized entanglement measures which are named as $G_omega$-concurrence ($G_omega$C)<n>We also prove a new polygamy relation of multiqubit quantum entanglement in terms of $G_omega$-concurrence of assistance ($G_omega$CoA)<n>Based on the monogamy properties of S$G_omega$C, we can construct the corresponding multipartite entanglement indicators, which can detect all genuine multiqubit entangled states even in the case of $N$-tangle vanishes.
Score: 1.125136513287558
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this paper, we propose a novel class of parameterized entanglement measures which are named as $G_\omega$-concurrence ($G_\omega$C) ($0<\omega\leq1$), and demonstrate comprehensively that they satisfy all the necessary axiomatic conditions required for an entanglement measure. Furthermore, we derive an analytical formula relating $G_\omega$C to concurrence for the range of $0.85798\leq\omega\leq1$ within two-qubit systems. Additionally, we prove a new polygamy relation of multiqubit quantum entanglement in terms of $G_\omega$-concurrence of assistance ($G_\omega$CoA). However, it fails to obey the monogamy relation, but we have demonstrated that the squared $G_\omega$-concurrence (S$G_\omega$C) does obeys a general monogamy relation in an arbitrary $N$-qubit mixed state. Based on the monogamy properties of S$G_\omega$C, we can construct the corresponding multipartite entanglement indicators, which can detect all genuine multiqubit entangled states even in the case of $N$-tangle vanishes. In addition, for multipartite higher-dimensional systems, it is illustrated that S$G_\omega$C still has the applicability of the monogamy relation.

Related papers

Superior monogamy and polygamy relations and estimates of concurrence [6.408200192709026]
We present a class of tighter parameterized monogamy relation for the $alpha$th $(alphageqgamma)$ power based on Eq. (1.1)<n>This study provides a family of tighter lower (resp. upper) bounds of the monogamy (resp. polygamy) relations in a unified manner.
arXiv Detail & Related papers (2025-03-02T02:25:34Z)
Monogamy and polygamy for multi-qudit generalized $W$-class states based on concurrence of assistance and Tsallis-$q$ entanglement of assistance [1.125136513287558]
We present new analytical monogamy inequalities satisfied by the $alpha$-th ($alphageqgamma,gammageq2$) power.<n>We also establish new monogamy and polygamy relations, which are shown to be valid even for multipartite higher-dimensional states.
arXiv Detail & Related papers (2025-02-17T07:56:06Z)
Unified monogamy relations for the generalized $W$-class states beyond qubits [1.125136513287558]
We study monogamy relations with respect to partitions for the generalized $W$-class (GW) states based on the unified-($q,s$) entanglement (UE) We provide the monogamy relation based on the squared UE for a reduced density matrix of a qudit GW state, as well as tighter monogamy relations based on the $alpha$th ($alphageq2$) power of UE.
arXiv Detail & Related papers (2024-11-16T08:44:50Z)
G_q-concurrence and entanglement constraints in multiqubit systems [2.150800093140658]
We show that $G_q$-concurrence satisfies all the axiomatic conditions of an entanglement measure and can be considered as a generalization of concurrence. We construct a set of entanglement indicators that can detect genuinely multiqubit entangled states even when the tangle loses its efficacy.
arXiv Detail & Related papers (2024-06-27T11:07:51Z)
A Unified Framework for Uniform Signal Recovery in Nonlinear Generative Compressed Sensing [68.80803866919123]
Under nonlinear measurements, most prior results are non-uniform, i.e., they hold with high probability for a fixed $mathbfx*$ rather than for all $mathbfx*$ simultaneously. Our framework accommodates GCS with 1-bit/uniformly quantized observations and single index models as canonical examples. We also develop a concentration inequality that produces tighter bounds for product processes whose index sets have low metric entropy.
arXiv Detail & Related papers (2023-09-25T17:54:19Z)
Parameterized multipartite entanglement measures [2.4172837625375]
We present two types of entanglement measures in $n$-partite systems, $q$-$k$-ME concurrence $(qgeq2,2leq kleq n)$ and $alpha$-$k$-ME concurrence $(0leqalphaleqfrac12,2leq kleq n)$. Rigorous proofs show that the proposed $k$-nonseparable measures satisfy all the requirements for being an entanglement measure.
arXiv Detail & Related papers (2023-08-31T01:58:47Z)
Entanglement and Bell inequalities violation in $H\to ZZ$ with anomalous coupling [44.99833362998488]
We discuss entanglement and violation of Bell-type inequalities for a system of two $Z$ bosons produced in Higgs decays. We find that a $ZZ$ state is entangled and violates the inequality for all values of the pair (anomalous) coupling constant.
arXiv Detail & Related papers (2023-07-25T13:44:31Z)
Online Learning with Adversaries: A Differential-Inclusion Analysis [52.43460995467893]
We introduce an observation-matrix-based framework for fully asynchronous online Federated Learning with adversaries. Our main result is that the proposed algorithm almost surely converges to the desired mean $mu.$ We derive this convergence using a novel differential-inclusion-based two-timescale analysis.
arXiv Detail & Related papers (2023-04-04T04:32:29Z)
The Approximate Degree of DNF and CNF Formulas [95.94432031144716]
For every $delta>0,$ we construct CNF and formulas of size with approximate degree $Omega(n1-delta),$ essentially matching the trivial upper bound of $n. We show that for every $delta>0$, these models require $Omega(n1-delta)$, $Omega(n/4kk2)1-delta$, and $Omega(n/4kk2)1-delta$, respectively.
arXiv Detail & Related papers (2022-09-04T10:01:39Z)
Algebraic Aspects of Boundaries in the Kitaev Quantum Double Model [77.34726150561087]
We provide a systematic treatment of boundaries based on subgroups $Ksubseteq G$ with the Kitaev quantum double $D(G)$ model in the bulk. The boundary sites are representations of a $*$-subalgebra $Xisubseteq D(G)$ and we explicate its structure as a strong $*$-quasi-Hopf algebra. As an application of our treatment, we study patches with boundaries based on $K=G$ horizontally and $K=e$ vertically and show how these could be used in a quantum computer
arXiv Detail & Related papers (2022-08-12T15:05:07Z)
Some Remarks on the Regularized Hamiltonian for Three Bosons with Contact Interactions [77.34726150561087]
We discuss some properties of a model Hamiltonian for a system of three bosons interacting via zero-range forces in three dimensions. In particular, starting from a suitable quadratic form $Q$, the self-adjoint and bounded from below Hamiltonian $mathcal H$ can be constructed. We show that the threshold value $gamma_c$ is optimal, in the sense that the quadratic form $Q$ is unbounded from below if $gammagamma_c$.
arXiv Detail & Related papers (2022-07-01T10:01:14Z)
Monogamy of entanglement between cones [68.8204255655161]
We show that monogamy is not only a feature of quantum theory, but that it characterizes the minimal tensor product of general pairs of convex cones. Our proof makes use of a new characterization of products of simplices up to affine equivalence.
arXiv Detail & Related papers (2022-06-23T16:23:59Z)
Quantum double aspects of surface code models [77.34726150561087]
We revisit the Kitaev model for fault tolerant quantum computing on a square lattice with underlying quantum double $D(G)$ symmetry. We show how our constructions generalise to $D(H)$ models based on a finite-dimensional Hopf algebra $H$.
arXiv Detail & Related papers (2021-06-25T17:03:38Z)

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