Modeling of cluster structures in a material. Force fields and   descriptors

Alexander Herega

arXiv:1709.01986·cond-mat.mtrl-sci·September 8, 2017

Modeling of cluster structures in a material. Force fields and descriptors

Alexander Herega

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Open Access

TL;DR

This paper models cluster structures in materials using superpositions of modified Sierpinski carpet force fields and introduces long-range interactions in irradiated crystals as manifestations of second order phase transitions.

Contribution

It presents a novel approach to modeling material cluster structures and long-range effects using fractal-based force fields and phase transition concepts.

Findings

01

Force fields modeled as superpositions of modified Sierpinski carpet

02

Long-range effects in irradiated crystals linked to second order phase transitions

03

Provides a new framework for understanding boundary interactions in materials

Abstract

The force fields of interior boundaries of matters are calculated as superposition of fields of modified Sierpinski carpet. The long-range effect interaction in irradiated crystals is introduced as various manifestations of second order phase transition.

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Taxonomy

TopicsAdvanced Theoretical and Applied Studies in Material Sciences and Geometry