The transitions among classical mechanics, quantum mechanics, and stochastic quantum mechanics
Foundations of Physics 12 (9):825-841 (1982)
Abstract
Various formalisms for recasting quantum mechanics in the framework of classical mechanics on phase space are reviewed and compared. Recent results in stochastic quantum mechanics are shown to avoid the difficulties encountered by the earlier approach of Wigner, as well as to avoid the well-known incompatibilities of relativity and ordinary quantum theory. Specific mappings among the various formalisms are givenDOI
10.1007/bf01884995
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Citations of this work
Some realizable joint measurements of complementary observables.Paul Busch - 1987 - Foundations of Physics 17 (9):905-937.
The inaccuracy principle.Hans Martens & Willem M. de Muynck - 1990 - Foundations of Physics 20 (4):357-380.
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On the nonoccurrence of two paradoxes in the measurement scheme of stochastic quantum mechanics.F. E. Schroeck - 1985 - Foundations of Physics 15 (3):279-302.
Compatible stochastic observables that do not commute.Franklin E. Schroeck - 1985 - Foundations of Physics 15 (6):677-681.
References found in this work
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A self-consistent approach to quantum field theory for extended particles.Eduard Prugovečki - 1981 - Foundations of Physics 11 (5-6):355-382.
On a quantum algebraic approach to a generalized phase space.D. Bohm & B. J. Hiley - 1981 - Foundations of Physics 11 (3-4):179-203.
On the stochastic measurement of incompatible spin components.Franklin E. Schroeck - 1982 - Foundations of Physics 12 (5):479-497.
