2018
DOI: 10.1103/physrevlett.120.040405
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Operational Markov Condition for Quantum Processes

Abstract: We derive a necessary and sufficient condition for a quantum process to be Markovian which coincides with the classical one in the relevant limit. Our condition unifies all previously known definitions for quantum Markov processes by accounting for all potentially detectable memory effects. We then derive a family of measures of non-Markovianity with clear operational interpretations, such as the size of the memory required to simulate a process, or the experimental falsifiability of a Markovian hypothesis.In … Show more

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Cited by 249 publications
(357 citation statements)
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“…This equation is an analogue of (29) and (34). That is, it is the operator sum (or Kraus) representation for the process tensor, which (like the superchannel) implies that it is CP [74]. It also clearly satisfies the containment property, i.e., T j:k ⊂ T i:l for all i ≤ j ≤ k ≤ l and it is trace preserving in the sense that it maps sequences of CPTP maps to unit trace objects.…”
Section: Multiple Time Steps and The Process Tensormentioning
confidence: 99%
See 4 more Smart Citations
“…This equation is an analogue of (29) and (34). That is, it is the operator sum (or Kraus) representation for the process tensor, which (like the superchannel) implies that it is CP [74]. It also clearly satisfies the containment property, i.e., T j:k ⊂ T i:l for all i ≤ j ≤ k ≤ l and it is trace preserving in the sense that it maps sequences of CPTP maps to unit trace objects.…”
Section: Multiple Time Steps and The Process Tensormentioning
confidence: 99%
“…Mathematically, this means that the dynamics is a mapping T k:0 : B(B(H)) ⊗k → B(H), called a process tensor [74], whose action can be written as…”
Section: Multiple Time Steps and The Process Tensormentioning
confidence: 99%
See 3 more Smart Citations