Sample optimal tomography of quantum Markov chains
Abstract
A state on a tripartite quantum system forms a Markov chain, i.e., quantum conditional independence, if it can be reconstructed from its marginal on by a quantum operation from to via the famous Petz map: a quantum Markov chain satisfies . In this paper, we study the robustness of the Petz map for different metrics, i.e., the closeness of marginals implies the closeness of the Petz map outcomes. The robustness results are dimension-independent for infidelity and trace distance . The applications of robustness results are The sample complexity of quantum Markov chain tomography, i.e., how many copies of an unknown quantum Markov chain are necessary and sufficient to determine the state, is , and . The sample complexity of quantum Markov Chain certification, i.e., to certify whether a tripartite state equals a fixed given quantum Markov Chain or at least -far from , is , and . copies to test whether is a quantum Markov Chain or -far from its Petz recovery state. We generalized the tomography results into multipartite quantum system by showing copies for infidelity are enough for -partite quantum Markov chain tomography with being the dimension of the -th subsystem.
Cite
@article{arxiv.2209.02240,
title = {Sample optimal tomography of quantum Markov chains},
author = {Li Gao and Nengkun Yu},
journal= {arXiv preprint arXiv:2209.02240},
year = {2025}
}
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