Thermodynamic Limits, Non-commutative Probability, and Quantum Entanglement

Details Thermodynamic Limits, Non-commutative Probability, and Quantum Entanglement Thermodynamic Limits, Non-commutative Probability, and Quantum Entanglement

2005-07-02

arxiv.org/abs/quant-ph/0507017v1

Quantum Theory and Symmetries III, Cincinnati 2003, ed. by Argyres et al, Singapore, 2004, pp.133-143

Physics

Quantum Physics

slightly revised version of published version

Scientific paper

We construct a rigourous model of quantum measurement. A two-state model of a negative temperature amplifier, such as a laser, is taken to a classical thermodynamic limit. In the limit, it becomes a classical measurement apparatus obeying the stochastic axioms of quantum mechanics. Thus we derive the probabilities from a deterministic Schroedinger's equation by procedures analogous to those of classical statistical mechanics. This requires making precise the notion of `macroscopic.'

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