Transient and quantal nucleation in solids: a statistical approach

TL;DR

This paper develops a statistical framework to analyze transient and quantal nucleation rates in solids, with potential applications to 2D anyon systems, advancing understanding of nucleation phenomena in solid state physics.

Contribution

It introduces a unified statistical approach to transient and quantal nucleation, extending previous work to include time-dependent effects and potential applications to anyon systems.

Findings

Framework successfully models transient nucleation rates

Method incorporates classical and quantum statistical effects

Potential applicability to 2D anyon systems

Abstract

In a recent arXiv preprint we proposed a statistical approach to the quantal effects in nucleation rate, addressed particularly to solid state physics. We now turn to transient nucleation rates incorporating either classical or quantal statistics. A similar method may be applied to tackle nucleation problems in anyon systems in 2D solids.