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Stochastic quantum mechanics viewed from the language of manuals

F. E. Schroeck & D. J. Foulis

Foundations of Physics 20 (7):823-858 (1990)

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Symmetry in quantum theory: Implications for the convexity formalism, the measurement problem, and hidden variables. [REVIEW]F. E. Schroeck - 1997 - Foundations of Physics 27 (10):1375-1396.details Symmetries are introduced into the convexity approach to physics. This allows one to make connections between classical and quantum theories by exploiting the properties of quantum mechanics on phase space. The measurement problem is discussed and many of the known no-go theorems are shown not to apply. Finally, hidden variable theories exhibiting these physical symmetries are shown to have a certain required group structure, if they exist at all. Interpretation of Quantum Mechanics in Philosophy of Physical Science Symmetry in Physics in Philosophy of Physical Science Direct download (3 more) Export citation Bookmark 1 citation
Effect algebras and unsharp quantum logics.D. J. Foulis & M. K. Bennett - 1994 - Foundations of Physics 24 (10):1331-1352.details The effects in a quantum-mechanical system form a partial algebra and a partially ordered set which is the prototypical example of the effect algebras discussed in this paper. The relationships among effect algebras and such structures as orthoalgebras and orthomodular posets are investigated, as are morphisms and group- valued measures (or charges) on effect algebras. It is proved that there is a universal group for every effect algebra, as well as a universal vector space over an arbitrary field. Quantum Logic in Logic and Philosophy of Logic Direct download (4 more) Export citation Bookmark 56 citations

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