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Measurement in Bohm's versus Everett's quantum theory
Foundations of Physics 18 (7):723-730 (1988)
Abstract
The interpretations of measurements in Bohm's and Everett's quantum theories are compared. Since both theories are based on the assumption of a universally valid Schrödinger equation, they face the common problem of how to explain that arrow of time, which in conventional quantum theory is represented by the collapse of the wave function. Its solution requires, in a statistical sense, a very improbable initial condition for thetotal wave function of the universe. The historical importance of Bohm's quantum theory is pointed outMy notes
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Citations of this work
Quantum/classical correspondence in the light of Bell's inequalities.Leonid A. Khalfin & Boris S. Tsirelson - 1992 - Foundations of Physics 22 (7):879-948.
Bell's theorem and the nature of reality.R. A. Bertlmann - 1990 - Foundations of Physics 20 (10):1191-1212.
Bohmian Mechanics, the Quantum-Classical Correspondence and the Classical Limit: The Case of the Square Billiard. [REVIEW]A. Matzkin - 2009 - Foundations of Physics 39 (8):903-920.
References found in this work
On the interpretation of measurement in quantum theory.H. D. Zeh - 1970 - Foundations of Physics 1 (1):69-76.
Measurement understood through the quantum potential approach.D. Bohm & B. J. Hiley - 1984 - Foundations of Physics 14 (3):255-274.
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