Quantum transition probability in convex sets and self-dual cones

• URL: http://arxiv.org/abs/2312.13213v2
• Date: Wed, 27 Nov 2024 14:32:52 GMT
• Title: Quantum transition probability in convex sets and self-dual cones
• Authors: Gerd Niestegge,
• Abstract summary: We present a more elementary approach with a more generic structure for the observables. The binary case gives rise to the generalized qubit models. A novel geometric property that makes any compact convex set a matching state space is presented.
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• Abstract: The interplay between the algebraic structure (operator algebras) for the quantum observables and the convex structure of the state space has been explored for a long time and most advanced results are due to Alfsen and Shultz. Here we present a more elementary approach with a more generic structure for the observables, which focuses on the transition probability of the quantum logical atoms. The binary case gives rise to the generalized qubit models and was fully developed in a preceding paper. Here we consider any case with finite information capacity (binary means that the information capacity is 2). A novel geometric property that makes any compact convex set a matching state space is presented. Generally, the transition probability is not symmetric; if it is symmetric, we get an inner product and a self-dual cone. The emerging mathematical structure comes close to the Euclidean Jordan algebras and becomes a new mathematical model for a potential extension of quantum theory.

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