Quantum Measurement Problem, Decoherence, and Quantum Systems Selfdescription
Abstract
Quantum Measurements regarded in Systems Selfdescription framework for measuring system (MS) consist of measured state S environment E and observer O processing input S signal. O regarded as quantum object which interaction with S,E obeys to Schrodinger equation (SE) and from it and Breuer selfdescription formalism S information for O reconstructed. In particular S state collapse obtained if O selfdescription state has the dual structure LT= H LV where H is Hilbert space of MS states MS. LV is the set with elements VO=|Oj> < Oj| describing random 'pointer' outcomes Oj observed by O in the individual events. The 'preferred' basis |Oj> defined by O state decoherence via O - E interactions. Zurek's Existential Interpretation discussed in selfmeasurement framework.
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