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The Schrödinger–Newton equation as a possible generator of quantum state reduction
- DOI:
- 10.1080/14786430802251439
pages 1659-1671
Available online: 28 Jul 2008Abstract
It has been suggested by Diósi and Penrose that the occurrence of quantum state reduction in macroscopic objects is related to a manifestation of gravitational effects in quantum mechanics. Although within Penrose's framework the dynamics of the quantum state reduction is not prescribed, it was suggested that the so-called Schrödinger–Newton equation can be used to at least identify the resulting classical end states. Here we analyse the extent to which the Schrödinger–Newton equation can be used as a model to generate a full, time-dependent description of the quantum state reduction process. We find that when supplied with an imaginary gravitational potential, the Schrödinger–Newton equation offers a rationalization for some of the hitherto unexplained characteristics of quantum state reduction. The description remains incomplete however, because it is unclear how to fully recover Born's rule.
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- Citation information:
- Available online: 28 Jul 2008
Author affiliations
- a Cavendish Laboratory, University of Cambridge, Madingley Road, Cambridge, CB3 0HE, UK
- b Institute-Lorentz for Theoretical Physics, Universiteit Leiden, P.O. Box 9506, 2300 Leiden, RA, The Netherlands
- c Institute for Molecules and Materials, Radboud Universiteit Nijmegen, P.O. Box 9010, Nijmegen, GL, 6500, The Netherlands
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