Investigation of nanoporous material under quasi-equilibrium conditions

TL;DR

This paper develops a theoretical model based on the Lorenz system to describe nanoporous material formation near phase equilibrium, incorporating temperature fluctuations and analyzing phase diagrams for structure formation.

Contribution

It introduces a self-consistent model linking plasma-condensate dynamics with surface temperature fluctuations to predict porous structure formation.

Findings

Derived evolution and Fokker-Planck equations for the system.

Constructed phase diagram indicating conditions for porous structure formation.

Analyzed the influence of temperature fluctuations on phase behavior.

Abstract

Based on the three parametric Lorenz system, a model was developed that permits to describe the behavior of the plasma-condensate system near phase equilibrium in a self-consistent way. Considering the effect of fluctuations of the growth surface temperature, the evolution equation and the corresponding Fokker-Planck equation were obtained. The phase diagram is built which determines the system parameters corresponding to the regime of the porous structure formation.