Quantum Matter-Photonics Framework: Analyses of Chemical Conversion Processes
Abstract
A quantum Matter-Photonics framework is adapted to help scrutinize chemical reaction mechanisms and used to explore a process mapped from chemical tree topological model. The chemical concept of bond knitting/breaking is reformulated via partitioned base sets leading to an abstract and general quantum presentation. Pivotal roles are assigned to entanglement, coherence,de-coherence and Feshbach resonance quantum states that permit apprehend gating states in conversion processes. A view from above in the state energy eigenvalue ladder, belonging to full system spectra complement the standard view from ground state. A full quantum physical view supporting chemical change obtains.
Cite
@article{arxiv.1410.8771,
title = {Quantum Matter-Photonics Framework: Analyses of Chemical Conversion Processes},
author = {O. Tapia},
journal= {arXiv preprint arXiv:1410.8771},
year = {2014}
}
Comments
18 pages, Partially communicated to Swedish Theoretical Chemistry Meeting 2014