Dynamics of non-Markovian open quantum systems
Ludwig-Maximilians-Universität München
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Abstract
This review gives a summary of the many techniques that are used in the analysis of open quantum systems. Emphasis is on those cases where it is unsuitable to use a memoryless or Markovian point of view, generally because there is no large separation of time scales between system and environment dynamics. The approaches reviewed include master equations, Heisenberg equations of motion, chain mapping representations, and various stochastic methods such as path integral Monte Carlo and stochastic equations. Guidance is given on how to evaluate the suitability of each of these methods for application in different physical problems.
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1,217
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Authors
2Topics & keywords
Topics
Keywords
- Physics
- Statistical physics
- Master equation
- Quantum stochastic calculus
- Markov process
- Path integral formulation
- Quantum
- Open system (computing)
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