# Spin-Diffusions and Diffusive Molecular Dynamics

**Authors:** Brittan A Farmer, Mitchell Luskin, Petr Plech\'a\v{c}, Gideon Simpson

arXiv: 1702.01469 · 2017-11-22

## TL;DR

This paper connects diffusive molecular dynamics to a new spin-diffusion stochastic process, providing a theoretical foundation and exploring model relationships through assumptions, approximations, and test problems.

## Contribution

It formulates a spin-diffusion process and demonstrates its connection to diffusive molecular dynamics, clarifying the model's theoretical basis.

## Key findings

- Spin-diffusion can lead to diffusive molecular dynamics models.
- Different assumptions yield various related models.
- The models are compared through a simple test problem.

## Abstract

Metastable condensed matter typically fluctuates about local energy minima at the femtosecond time scale before transitioning between local minima after nanoseconds or microseconds. This vast scale separation limits the applicability of classical molecular dynamics methods and has spurned the development of a host of approximate algorithms. One recently proposed method is diffusive molecular dynamics which aims to integrate a system of ordinary differential equations describing the likelihood of occupancy by one of two species, in the case of a binary alloy, while quasistatically evolving the locations of the atoms. While diffusive molecular dynamics has shown to be efficient and provide agreement with observations, it is fundamentally a model, with unclear connections to classical molecular dynamics.   In this work, we formulate a spin-diffusion stochastic process and show how it can be connected to diffusive molecular dynamics. The spin-diffusion model couples a classical overdamped Langevin equation to a kinetic Monte Carlo model for exchange amongst the species of a binary alloy. Under suitable assumptions and approximations, spin-diffusion can be shown to lead to diffusive molecular molecular dynamics type models. The key assumptions and approximations include a well defined time scale separation, a choice of spin exchange rates, a low temperature approximation, and a mean field type approximation. We derive several models from different assumptions and show their relationship to diffusive molecular dynamics. Differences and similarities amongst the models are explored in a simple test problem.

## Full text

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## Figures

26 figures with captions in the complete paper: https://tomesphere.com/paper/1702.01469/full.md

## References

43 references — full list in the complete paper: https://tomesphere.com/paper/1702.01469/full.md

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Source: https://tomesphere.com/paper/1702.01469