Quantum Capacities for Entanglement Networks
Abstract
We discuss quantum capacities for two types of entanglement networks: for the quantum repeater network with free classical communication, and for the tensor network as the rank of the linear operation represented by the tensor network. We find that always equals in the regularized case for the samenetwork graph. However, the relationships between the corresponding one-shot capacities and are more complicated, and the min-cut upper bound is in general not achievable. We show that the tensor network can be viewed as a stochastic protocol with the quantum repeater network, such that is a natural upper bound of . We analyze the possible gap between and for certain networks, and compare them with the one-shot classical capacity of the corresponding classical network.
Cite
@article{arxiv.1602.00401,
title = {Quantum Capacities for Entanglement Networks},
author = {Shawn X Cui and Zhengfeng Ji and Nengkun Yu and Bei Zeng},
journal= {arXiv preprint arXiv:1602.00401},
year = {2016}
}