6533b7d2fe1ef96bd125e36e

RESEARCH PRODUCT

Quantum collision models: Open system dynamics from repeated interactions

Francesco CiccarelloSalvatore LorenzoVittorio GiovannettiG. Massimo Palma

subject

Quantum non-Markovian dynamicsQuantum PhysicsQuantum opticsQuantum weak measurementsInput–output formalismFOS: Physical sciencesGeneral Physics and AstronomyRepeated interactionsSettore FIS/03 - Fisica Della MateriaOpen quantum systemsQuantum trajectoriesCascaded master equations; Input-output formalism; Open quantum systems; Quantum non-Markovian dynamics; Quantum optics; Quantum thermodynamics; Quantum trajectories; Quantum weak measurements; Repeated interactionsCascaded master equationsQuantum Physics (quant-ph)Quantum thermodynamics

description

We present an extensive introduction to quantum collision models (CMs), also known as repeated interactions schemes: a class of microscopic system-bath models for investigating open quantum systems dynamics whose use is currently spreading in a number of research areas. Through dedicated sections and a pedagogical approach, we discuss the CMs definition and general properties, their use for the derivation of master equations, their connection with quantum trajectories, their application in non-equilibrium quantum thermodynamics, their non-Markovian generalizations, their emergence from conventional system-bath microscopic models and link to the input-output formalism. The state of the art of each involved research area is reviewed through dedicated sections. The article is supported by several complementary appendices, which review standard concepts/tools of open quantum systems used in the main text with the goal of making the material accessible even to readers possessing only a basic background in quantum mechanics. The paper could also be seen itself as a friendly, physically intuitive, introduction to fundamentals of open quantum systems theory since most main concepts of this are treated such as quantum maps, Lindblad master equation, steady states, POVMs, quantum trajectories and stochastic Schrodinger equation.

yearjournalcountryeditionlanguage
2022-04-08Physics Reports
https://doi.org/10.1016/j.physrep.2022.01.001