Editing Quantum decoherence (section)

==Further reading==
* {{cite encyclopedia |title=The Role of Decoherence in Quantum Mechanics |encyclopedia=Stanford Encyclopedia of Philosophy |date=21 April 2020 |last=Bacciagaluppi |first=Guido |url=https://plato.stanford.edu/entries/qm-decoherence/ |access-date=3 January 2022 |orig-year=3 November 2003}}
* {{cite web |last=Collins |first=Graham P. |title=Quantum Bug: Qubits might spontaneously decay in seconds |url=https://www.scientificamerican.com/article/quantum-bug/ |work=Scientific American |date=October 17, 2005}}
* {{Cite book
 | first = Maximilian | last = Schlosshauer
 | year = 2007
 | title = Decoherence and the Quantum-to-Classical Transition
 | edition = 1st
 | location = Berlin/Heidelberg
 | publisher = Springer
 }}
* {{Cite book
 | first = E. | last = Joos
 | year = 2003
 | title = Decoherence and the Appearance of a Classical World in Quantum Theory
 | edition = 2nd
 | location = Berlin
 | publisher = Springer
 |display-authors=etal}}
* {{Cite book
 | first = R. | last = Omnes
 | year = 1999
 | title = Understanding Quantum Mechanics
 | location = Princeton
 | publisher = Princeton University Press
 }}
* [[Wojciech H. Zurek|Zurek, Wojciech H.]] (2003). "Decoherence and the transition from quantum to classical – REVISITED", {{arxiv|quant-ph/0306072}} (An updated version of PHYSICS TODAY, 44:36–44 (1991) article)
* {{Cite journal
 | first = Maximilian | last = Schlosshauer
 | date = 23 February 2005
 | title = Decoherence, the Measurement Problem, and Interpretations of Quantum Mechanics
 | journal = Reviews of Modern Physics
 | volume=76 | pages = 1267–1305
 | doi = 10.1103/RevModPhys.76.1267
| issue=2004
| arxiv=quant-ph/0312059
| bibcode=2004RvMP...76.1267S| s2cid = 7295619
}}
* {{Cite book |editor-first1=J. J. |editor-last1=Halliwell |editor-first2=J. |editor-last2=Perez-Mercader |editor-first3=Wojciech H. |editor-last3=Zurek |editor-link3=Wojciech H. Zurek |title=The Physical Origins of Time Asymmetry |series=Part 3: Decoherence |date=21 March 1996 |isbn=0-521-56837-4}}
* [[Berthold-Georg Englert]], [[Marlan O. Scully]] & [[Herbert Walther]], ''Quantum Optical Tests of Complementarity'', Nature, Vol 351, pp 111–116 (9 May 1991) and (same authors) ''The Duality in Matter and Light'' Scientific American, pg 56–61, (December 1994). Demonstrates that [[Complementarity (physics)|complementarity]] is enforced, and [[Interference (wave propagation)|quantum interference]] effects destroyed, by [[Irreversibility|irreversible]] [[Measurement in quantum mechanics|object-apparatus correlations]], and not, as was previously popularly believed, by Heisenberg's [[uncertainty principle]] itself.
* Mario Castagnino, Sebastian Fortin, Roberto Laura and [[Olimpia Lombardi]], ''A general theoretical framework for decoherence in open and closed systems'', Classical and Quantum Gravity, 25, pp.&nbsp;154002–154013, (2008). A general theoretical framework for decoherence is proposed, which encompasses formalisms originally devised to deal just with open or closed systems.

{{Quantum mechanics topics}}

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