Related papers: Does quantum information require additional structure?

Does quantum information require additional structure?

URL: http://arxiv.org/abs/2408.11183v2
Date: Mon, 2 Sep 2024 18:46:22 GMT
Title: Does quantum information require additional structure?
Authors: Ryszard Horodecki,
Abstract summary: We introduce the correspondence principle between physical reality and mathematical models. We consider the status of quantum information in the standard quantum model. We present the Chyli'nski model as an example of quantum relational space.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We consider interpretative problems of models of physical reality, including quantum information phenomenon in the context of Heisenberg's classification of the fundamental physical theoretic models under the role of universal constants Planck's constant $h$ and speed of light $c$. We introduce the correspondence principle between physical reality and mathematical models, and we discuss its significance in relation to physical models. We consider the status of quantum information in the standard quantum model, and based on the correspondence principle, we propose an interpretation of the wave function as a mathematical representation of quantum information. In this context, we consider Clauser's analysis of incompatibility formulations of quantum theory in laboratory space and configuration space in the context of local realism. Then, we introduce the hypothesis of quantum space of directly unobserved relations, which precede correlations in the ``classical'' Minkowski space-time and are compatible with the Reichenbach common cause principle. Finally, we present the Chyli\'nski model as an example of quantum relational space, which predicts potentially measurable effects for the bound states.

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