Quantum-embeddable stochastic matrices

Autor: Shahbeigi, Fereshte, Chubb, Christopher T., Kukulski, Ryszard, Pawela, Łukasz, Korzekwa, Kamil
Rok vydání: 2023
Předmět:
Zdroj: Quantum 8, 1404 (2024)
Druh dokumentu: Working Paper
DOI: 10.22331/q-2024-07-10-1404
Popis: The classical embeddability problem asks whether a given stochastic matrix $T$, describing transition probabilities of a $d$-level system, can arise from the underlying homogeneous continuous-time Markov process. Here, we investigate the quantum version of this problem, asking of the existence of a Markovian quantum channel generating state transitions described by a given $T$. More precisely, we aim at characterising the set of quantum-embeddable stochastic matrices that arise from memoryless continuous-time quantum evolution. To this end, we derive both upper and lower bounds on that set, providing new families of stochastic matrices that are quantum-embeddable but not classically-embeddable, as well as families of stochastic matrices that are not quantum-embeddable. As a result, we demonstrate that a larger set of transition matrices can be explained by memoryless models if the dynamics is allowed to be quantum, but we also identify a non-zero measure set of random processes that cannot be explained by either classical or quantum memoryless dynamics. Finally, we fully characterise extreme stochastic matrices (with entries given only by zeros and ones) that are quantum-embeddable.
Comment: Accepted version
Databáze: arXiv