Related papers: Correlation strengths in hybrid networks

Correlation strengths in hybrid networks

URL: http://arxiv.org/abs/2501.14448v1
Date: Fri, 24 Jan 2025 12:30:08 GMT
Title: Correlation strengths in hybrid networks
Authors: Li-Yi Hsu,
Abstract summary: We investigate the maximal correlation strength as the non-classical feature in a generic hybrid network. We derive the upper bounds of the maximal correlation strengths in the associated full-classical, full-quantum, and fully-no-signaling networks.
Score: 0.0
License:
Abstract: In a generic hybrid network, classical, quantum, and no-signaling sources emit local hidden variables, stabilizer states, and no-signaling systems, respectively. We investigate the maximal correlation strength as the non-classical feature in this network. Given the associated fully-quantum network of a hybrid network, we exploit the stabilizing operators of the distributed quantum state to construct segmented Bell operators and the Bell inequalities tailored to the state. We derive the upper bounds of the maximal correlation strengths in the associated full-classical, full-quantum, and fully-no-signaling networks as the benchmarks. Our study shows that the achievable correlation strength depends on the number of type-A measurements and that of nonlocal sources. We also introduce the t-nonlocality criteria, indicating that the achievable maximal correlation strength cannot modeled by the network with at least t observers with local hidden variables performing type-A measurements.

Related papers

Distributing quantum correlations through local operations and classical resources [0.0]
Global quantum correlations, as characterized by the discord, can be distributed to quantum memories using a mixed state of information carriers. We show that even more discord can be generated when the resource state undergoes correlated dephasing noise.
arXiv Detail & Related papers (2024-08-10T08:42:06Z)
Leveraging Low-Rank and Sparse Recurrent Connectivity for Robust Closed-Loop Control [63.310780486820796]
We show how a parameterization of recurrent connectivity influences robustness in closed-loop settings. We find that closed-form continuous-time neural networks (CfCs) with fewer parameters can outperform their full-rank, fully-connected counterparts.
arXiv Detail & Related papers (2023-10-05T21:44:18Z)
Hierarchical certification of nonclassical network correlations [50.32788626697182]
We derive linear and nonlinear Bell-like inequalities for networks, whose violation certifies the absence of a minimum number of classical sources in them. We insert this assumption, which leads to results more amenable to certification in experiments.
arXiv Detail & Related papers (2023-06-27T18:00:01Z)
Detecting Nontrilocal Correlations In Triangle Networks [0.0]
Correlations in quantum networks with independent sources exhibit a completely novel form of nonclassicality. A set of criteria is framed in the form of Bell-type inequalities, each of which is necessarily satisfied by trilocal correlations. measurement on a local product state basis turns out to be sufficient to generate nontrilocal correlations in some quantum networks.
arXiv Detail & Related papers (2023-03-15T16:25:32Z)
Experimental full network nonlocality with independent sources and strict locality constraints [59.541438315564854]
Nonlocality in networks gives rise to phenomena radically different from that in standard Bell scenarios. We experimentally observe full network nonlocality in a network where the source-independence, locality, and measurement-independence loopholes are closed. Our experiment violates known inequalities characterizing non-full network nonlocal correlations by over five standard deviations.
arXiv Detail & Related papers (2023-02-05T20:03:58Z)
Certification of non-classicality in all links of a photonic star network without assuming quantum mechanics [52.95080735625503]
Full network nonlocality goes beyond standard nonlocality in networks by falsifying any model in which at least one source is classical. We report on the observation of full network nonlocality in a star-shaped network featuring three independent sources of photonic qubits and joint three-qubit entanglement-swapping measurements.
arXiv Detail & Related papers (2022-12-19T19:00:01Z)
Quantum local random networks and the statistical robustness of quantum scars [68.8204255655161]
We investigate the emergence of quantum scars in a general ensemble of random Hamiltonians. We find a class of scars, that we call "statistical" We study the scaling of the number of statistical scars with system size.
arXiv Detail & Related papers (2021-07-02T07:53:09Z)
Genuine network quantum nonlocality and self-testing [0.0]
We define a notion of genuine network quantum nonlocality. We show several examples of correlations that are genuine network nonlocal. In particular, we present an example of quantum self-testing which relies on the network structure.
arXiv Detail & Related papers (2021-05-26T06:05:22Z)
Full network nonlocality [68.8204255655161]
We introduce the concept of full network nonlocality, which describes correlations that necessitate all links in a network to distribute nonlocal resources. We show that the most well-known network Bell test does not witness full network nonlocality. More generally, we point out that established methods for analysing local and theory-independent correlations in networks can be combined in order to deduce sufficient conditions for full network nonlocality.
arXiv Detail & Related papers (2021-05-19T18:00:02Z)
Exploring Bell nonlocality of quantum networks with stabilizing and logical operators [0.0]
Knowing the stabilizing and logical operators indeed provides a new way of exploring Bell non-locality in quantum networks. For the qubit distribution in quantum networks, the associated nonlinear Bell inequalities are derived. The tilted nonlinear Bell inequalities tailored for specific non-maximal entangled stabilizer states are also explored.
arXiv Detail & Related papers (2021-05-09T05:13:41Z)

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