Related papers: Detecting quantum steering in networks

Detecting quantum steering in networks

URL: http://arxiv.org/abs/2501.17469v1
Date: Wed, 29 Jan 2025 08:24:14 GMT
Title: Detecting quantum steering in networks
Authors: Ming-Xiao Li, Yuqi Li, Ya Xi, Chang-Yue Zhang, Ying-Zheng Wang, Rui-Bin Xu, Shao-Ming Fei, Zhu-Jun Zheng,
Abstract summary: Quantum networks promise an unprecedented leap in semi-device-independent communication and security. We introduce the network-Clauser-Horn-Shimony-Holt-like inequality for investigating network steering independent of entanglement source characteristics.
Score: 5.491618957644847
License:
Abstract: Quantum networks promise an unprecedented leap in semi-device-independent communication and security by capitalizing on quantum steering. However, current methods for assessing quantum network steering are constrained to specific cases. In this work, we introduce the network-Clauser-Horn-Shimony-Holt-like inequality for investigating network steering independent of entanglement source characteristics. We employ this inequality to detect full network steering in both single-node and multinode repeater networks and assess the tolerance of various noise models. Under a specific noise model, our method is used to compute the bound of semi-device-independent communication distance. Through case studies, we also demonstrate that our method, as a semi-device-independent entanglement witness, is more suitable for settings requiring Bell measurements compared to network Bell inequality. These findings open new avenues for broader ways to detect quantum steering independent of entanglement sources.

Related papers

Experimental randomness certification in a quantum network with independent sources [0.3613661942047476]
We show how to certify in entanglement-teleportation experiment, the building of a quantum repeater displaying two independent sources. Our theoretical model characterizes the certifiable randomness within the network and is validated through a scalar analysis.
arXiv Detail & Related papers (2025-02-20T15:52:35Z)
Guarantees on the structure of experimental quantum networks [105.13377158844727]
Quantum networks connect and supply a large number of nodes with multi-party quantum resources for secure communication, networked quantum computing and distributed sensing. As these networks grow in size, certification tools will be required to answer questions regarding their properties. We demonstrate a general method to guarantee that certain correlations cannot be generated in a given quantum network.
arXiv Detail & Related papers (2024-03-04T19:00:00Z)
Certifying the Topology of Quantum Networks: Theory and Experiment [0.0]
It is crucial to characterize the topology of networks in a way that reveals the nodes between which entanglement can be reliably distributed. Our scheme allows for distinguishing, in a scalable manner, different networks consisting of bipartite and multipartite entanglement sources. We experimentally demonstrate our approach by certifying the topology of different six-qubit networks generated with polarized photons.
arXiv Detail & Related papers (2023-09-22T14:50:38Z)
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)
Entangled Pair Resource Allocation under Uncertain Fidelity Requirements [59.83361663430336]
In quantum networks, effective entanglement routing facilitates communication between quantum source and quantum destination nodes. We propose a resource allocation model for entangled pairs and an entanglement routing model with a fidelity guarantee. Our proposed model can reduce the total cost by at least 20% compared to the baseline model.
arXiv Detail & Related papers (2023-04-10T07:16:51Z)
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 walk-based protocol for secure communication between any two directly connected nodes on a network [2.501693072047969]
This work presents an algorithm that generates entanglement between any two directly connected nodes of a quantum network. It paves the way for private inter-node quantum communication channels in the network. We show that after implementation, the probability of the walker being at all nodes other than the source and target is negligible.
arXiv Detail & Related papers (2022-11-23T13:19:41Z)
Optimal quantum control via genetic algorithms for quantum state engineering in driven-resonator mediated networks [68.8204255655161]
We employ a machine learning-enabled approach to quantum state engineering based on evolutionary algorithms. We consider a network of qubits -- encoded in the states of artificial atoms with no direct coupling -- interacting via a common single-mode driven microwave resonator. We observe high quantum fidelities and resilience to noise, despite the algorithm being trained in the ideal noise-free setting.
arXiv Detail & Related papers (2022-06-29T14:34:00Z)
A scheme for multipartite entanglement distribution via separable carriers [68.8204255655161]
We develop a strategy for entanglement distribution via separable carriers that can be applied to any number of network nodes. We show that our protocol results in multipartite entanglement, while the carrier mediating the process is always in a separable state with respect to the network.
arXiv Detail & Related papers (2022-06-20T10:50:45Z)
Network Quantum Steering [0.0]
We show how Bell nonlocality and quantum steering can be used to demonstrate network steering. We also show that it is a genuinely novel effect, by exhibiting unsteerable states that nevertheless demonstrate network steering. On the other hand, we provide no-go results for network steering in a large class of scenarios, by explicitly constructing NLHS models.
arXiv Detail & Related papers (2021-06-08T16:07:39Z)
Semidefinite tests for quantum network topologies [0.9176056742068814]
Quantum networks play a major role in long-distance communication, quantum cryptography, clock synchronization, and distributed quantum computing. The question of which correlations a given quantum network can give rise to, remains almost uncharted. We show that constraints on the observable covariances, previously derived for the classical case, also hold for quantum networks.
arXiv Detail & Related papers (2020-02-13T22:36:46Z)

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