Quantum state collapse on a Riemann-Hilbert space modulo observation
Abstract
In a previous work we constructed a new kind of moduli background space by identifying regions of space-time where an observation of space-time is implied. We called it Observation Modular space (OM-space). Quantum Mechanics (QM) on this moduli space gets mapped into a very rich and highly non trivial dual Number Theory which we call Observation Modular Quantum Mechanics (OM-QM). In this work we extend the scope of this modularization to include observations of quantum states. We call the resulting extended space Observation Modular Riemann-Hilbert space (OM-RH space). It has the mathematical structure of a Riemann Surface. We find the OM-QM analogue of quantum base states and mixed states. This allows us to find the OM-QM analogues to the quantum State Reduction postulate and the Born rule. The OM-QM analog to quantum state collapse turns out to be totally deterministic and unitary in OM-RH space. It is shown to be equivalent to an Elliptic Curve Encryption-decryption protocol. Finally we obtain the OM-QM analog of entangled quantum states. As an example we apply this to the OM-QM interpretation of the EPR experiment.
Cite
@article{arxiv.2402.07264,
title = {Quantum state collapse on a Riemann-Hilbert space modulo observation},
author = {Jose A. Pereira Frugone},
journal= {arXiv preprint arXiv:2402.07264},
year = {2024}
}
Comments
28 pages, 12 figures