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{{Use American English|date=January 2019}}{{Short description|Computational simulation method for open quantum systems}}The '''quantum jump method''', also known as the '''[[Monte Carlo method|Monte Carlo]] wave function (MCWF)''' or '''Quantum Trajectory method''', is a technique in [[computational physics]] used for simulating [[open quantum system]]s and [[quantum dissipation]]. The quantum jump method was developed by [[Jean Dalibard|Dalibard]], Castin and [[Klaus Mølmer|Mølmer]], with a very similar method also developed by [[Howard Carmichael|Carmichael]] in the same time frame. Other contemporaneous works on wave-function-based [[Monte Carlo method|Monte Carlo]] approaches to open quantum systems include those of Dum, [[Peter Zoller|Zoller]] and [[Helmut Ritsch|Ritsch]] and Hegerfeldt and Wilser.<ref name="MCD1993" /><ref name="PrimaryPapers">The associated primary sources are, respectively:
*{{cite journal|last=Dalibard|first=Jean|author2=Castin, Yvan |author3=Mølmer, Klaus |title=Wave-function approach to dissipative processes in quantum optics|journal=Physical Review Letters|date=February 1992|volume=68|issue=5|pages=580–583|doi=10.1103/PhysRevLett.68.580|pmid=10045937|bibcode = 1992PhRvL..68..580D |arxiv=0805.4002}}
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