Kolmogorov Complexity, Causality And Spin
Computational Complexity
2012-04-26 v2
Abstract
A novel topological and computational method for 'motion' is described. Motion is constrained by inequalities in terms of Kolmogorov Complexity. Causality is obtained as the output of a high-pass filter, passing through only high values of Kolmogorov Complexity. Motion under the electromagnetic field described with immediate relationship with Subscript[G, 2] Holonomy group and its corresponding dense free 2-subgroup. Similar to Causality, Spin emerges as an immediate and inevitable consequence of high values of Kolmogorov Complexity. Consequently, the physical laws are nothing but a low-pass filter for small values of Kolmogorov Complexity.
Cite
@article{arxiv.1204.5447,
title = {Kolmogorov Complexity, Causality And Spin},
author = {Dara O. Shayda},
journal= {arXiv preprint arXiv:1204.5447},
year = {2012}
}
Comments
Higher resolution images available, plus the Mathematica code that generated them