Integral Transforms in Relativistic Quantum Constraint Mechanics
Quantum Physics
2011-02-01 v1
Abstract
In relativistic quantum constraint mechanics the state of a physical system is constrained to a 3-dimensional subspace of Minkowski 4-space. Fourier transformation can be used to relate this state between constraint spaces in 4-position and 4-momentum space. It is shown that integral transforms of this nature can be carried out using Lorentz-invariant 3-dimensional constraint space coordinates such that a complete equivalence class of 4-space representations can be constructed from the transform. This method is further applied to develop a relativistic generalization of the Segal-Bargmann transformation that leads to the representation of quantum systems in a three-dimensional subspace of Bargmann 4-space.
Cite
@article{arxiv.1101.5665,
title = {Integral Transforms in Relativistic Quantum Constraint Mechanics},
author = {Robert J. Ducharme},
journal= {arXiv preprint arXiv:1101.5665},
year = {2011}
}
Comments
10 pages