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Quantum ◽  
2021 ◽  
Vol 5 ◽  
pp. 611
Author(s):  
Seungbeom Chin ◽  
Yong-Su Kim ◽  
Sangmin Lee

The indistinguishability of quantum particles is widely used as a resource for the generation of entanglement. Linear quantum networks (LQNs), in which identical particles linearly evolve to arrive at multimode detectors, exploit the indistinguishability to generate various multipartite entangled states by the proper control of transformation operators. However, it is challenging to devise a suitable LQN that carries a specific entangled state or compute the possible entangled state in a given LQN as the particle and mode number increase. This research presents a mapping process of arbitrary LQNs to graphs, which provides a powerful tool for analyzing and designing LQNs to generate multipartite entanglement. We also introduce the perfect matching diagram (PM diagram), which is a refined directed graph that includes all the essential information on the entanglement generation by an LQN. The PM diagram furnishes rigorous criteria for the entanglement of an LQN and solid guidelines for designing suitable LQNs for the genuine entanglement. Based on the structure of PM diagrams, we compose LQNs for fundamental N-partite genuinely entangled states.


2021 ◽  
Vol 8 (2) ◽  
pp. 432-440
Author(s):  
Chengdi Xiang ◽  
Shan Ma ◽  
Sen Kuang ◽  
Daoyi Dong

Author(s):  
Yanan Liu ◽  
Daoyi Dong ◽  
Ian R. Petersen ◽  
Qing Gao ◽  
Steven X. Ding ◽  
...  

Author(s):  
Shan Ma ◽  
Matthew James Woolley ◽  
Ian R. Petersen

Entropy ◽  
2020 ◽  
Vol 23 (1) ◽  
pp. 51
Author(s):  
Tony John George Apollaro ◽  
Wayne Jordan Chetcuti

Routing quantum information among different nodes in a network is a fundamental prerequisite for a quantum internet. While single-qubit routing has been largely addressed, many-qubit routing protocols have not been intensively investigated so far. Building on a recently proposed many-excitation transfer protocol, we apply the perturbative transfer scheme to a two-excitation routing protocol on a network where multiple two-receivers block are coupled to a linear chain. We address both the case of switchable and permanent couplings between the receivers and the chain. We find that the protocol allows for efficient two-excitation routing on a fermionic network, although for a spin-12 network only a limited region of the network is suitable for high-quality routing.


Author(s):  
A. Apra ◽  
A. Crippa ◽  
M. L. V. Tagliaferri ◽  
J. Li ◽  
R. Ezzouch ◽  
...  

Author(s):  
Tony John George Apollaro ◽  
Wayne Jordan Chetcuti

Routing quantum information among different nodes in a network is a fundamental prerequisite for a quantum internet. While single-qubit routing has been largely addressed, many-qubit routing protocols have not been intensively investigated so far. Building on the many-excitation transfer protocol in Ref. , we apply the perturbative transfer scheme to a two-excitation routing protocol on a network where multiple two-receivers block are coupled to a linear chain. We address both the case of switchable and permanent couplings between the receivers and the chain. We find that the protocol allows for efficient two-excitation routing on a fermionic network, although for a spin-12 network only a limited region of the network is suitable for high-quality routing.


Author(s):  
Peng Zhang ◽  
Qing Gao ◽  
Jinhu Lv ◽  
Daoyi Dong
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