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Effective descriptions of bosonic systems can be considered complete. [PDF]
Nat CommunArzani F, Booth RI, Chabaud U.
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Energy additivity as a requirement for universal quantum thermodynamical frameworks. [PDF]
Sci RepNeves LR, Brito F.
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Quantum circuit simulation with a local time-dependent variational principle
Eisert J +8 more
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The proposed book is a bridge between the foundations of quantum mechanics and the theory of open quantum systems. The treatment of open quantum systems is a rapidly growing subject, of interest to an ever-increasing number of scientists. The main focus is on overcoming the idealization of perfect isolation of a quantum system, so as to allow for a ...
D. F. Walls, Gerard J. Milburn
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D. F. Walls, Gerard J. Milburn
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2020
In this chapter, we introduce and study the notion of open quantum system, generalizing that of the quantum system we have dealt with so far. This notion lies at the foundation of quantum information theory.
Stephen J. Gustafson +1 more
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In this chapter, we introduce and study the notion of open quantum system, generalizing that of the quantum system we have dealt with so far. This notion lies at the foundation of quantum information theory.
Stephen J. Gustafson +1 more
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1996
To understand quantum dynamics it is essential to realize that observable systems are always subsystems of a larger one — ultimately of the whole universe. The notion of an isolated system makes sense only as an approximation depending on the concrete situation.
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To understand quantum dynamics it is essential to realize that observable systems are always subsystems of a larger one — ultimately of the whole universe. The notion of an isolated system makes sense only as an approximation depending on the concrete situation.
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1991
Quantum systems exhibiting chaotic dynamics in their classical limit provide a stimulating testing ground for an information theoretical interpretation of dynamical properties: In isolated quantum systems, the positive information production characteristic of classical chaotic systems is replaced by quasiperiodic behavior.
Dittrich, Thomas, Graham, R.
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Quantum systems exhibiting chaotic dynamics in their classical limit provide a stimulating testing ground for an information theoretical interpretation of dynamical properties: In isolated quantum systems, the positive information production characteristic of classical chaotic systems is replaced by quasiperiodic behavior.
Dittrich, Thomas, Graham, R.
openaire +1 more source