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Statistical Thermodynamics for a Non-commutative Special Relativity: Emergence of a Generalized Quantum Dynamics [Book Review]
Foundations of Physics 42 (12):1556-1572 (2012)
Abstract
There ought to exist a description of quantum field theory which does not depend on an external classical time. To achieve this goal, in a recent paper we have proposed a non-commutative special relativity in which space-time and matter degrees of freedom are treated as classical matrices with arbitrary commutation relations, and a space-time line element is defined using a trace. In the present paper, following the theory of Trace Dynamics, we construct a statistical thermodynamics for the non-commutative special relativity, and show that one arrives at a generalized quantum dynamics in which space and time are non-classical and have an operator status. In a future work, we will show how standard quantum theory on a classical space-time background is recovered from hereLinks
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Citations of this work
Integrated Information-Induced Quantum Collapse.Kobi Kremnizer & André Ranchin - 2015 - Foundations of Physics 45 (8):889-899.
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