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Spacetime Fluctuations and a Stochastic Schrödinger–Newton Equation
Foundations of Physics 47 (7):897-910 (2017)
Abstract
We propose a stochastic modification of the Schrödinger–Newton equation which takes into account the effect of extrinsic spacetime fluctuations. We use this equation to demonstrate gravitationally induced decoherence of two gaussian wave-packets, and obtain a decoherence criterion similar to those obtained in the earlier literature in the context of effects of gravity on the Schrödinger equation.Links
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References found in this work
Quantum concepts in space and time.Roger Penrose & C. J. Isham (eds.) - 1986 - New York ;: Oxford University Press.
On the possible role of gravity in the reduction of the wave function.F. Károlyházy, A. Frenkel & B. Lukács - 1986 - In Roger Penrose & C. J. Isham (eds.), Quantum Concepts in Space and Time. New York ;Oxford University Press. pp. 1--109.
Does gravity induce wavefunction collapse? An examination of Penrose's conjecture.Shan Gao - 2013 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 44 (2):148-151.
Spontaneous localizations of the wave function and classical behavior.Andor Frenkel - 1990 - Foundations of Physics 20 (2):159-188.
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