Field-theoretic technique for irreversible reaction processes
Abstract
The single-species annihilation reaction A+A->0 is studied in the presence of random advecting field. In order to determine possible infrared behavior of the system all stable fixed points are presented to two-loop approximation in double expansion with the corresponding regions of stability. The main result of this paper is the calculation of all the renormalization constants and the decay exponent to the second-order precision as well as calculation of scaling function the mean particle number to the first order. Effects of random sources and sinks on reaction kinetics in the master-equation description have been investigated in the framework of a field-theoretic model, obtained by the "second quantization" a la Doi of the corresponding master equation. It has been demonstrated that random sources and sinks have a significant effect on the asymptotic behaviour of the model and two universality classes for their description have been identified by the scaling analysis. Results are compared with the Langevin-equation description of the same process.
Cite
@article{arxiv.1212.1025,
title = {Field-theoretic technique for irreversible reaction processes},
author = {Michal Hnatič and Juha Honkonen and Tomáš Lučivjanský},
journal= {arXiv preprint arXiv:1212.1025},
year = {2015}
}
Comments
to be published in Physics of Elementary Particles and Atomic Nuclei