Phase transformation in boron under shock compression
Abstract
Using first-principles molecular dynamics, we calculated the equation of state and shock Hugoniot of various boron phases. We find a large mismatch between Hugoniots based on existing knowledge of the equilibrium phase diagram and those measured by shock experiments, which could be reconciled if the -B/-B transition is significantly over-pressurized in boron under shock compression. Our results also indicate that there exists an anomaly and negative Clapeyron slope along the melting curve of boron at 100 GPa and 1500--3000 Kelvin. These results enable in-depth understanding of matter under shock compression, in particular the significance of compression-rate dependence of phase transitions and kinetic effects in experimental measurements.
Keywords
Cite
@article{arxiv.2001.11890,
title = {Phase transformation in boron under shock compression},
author = {Shuai Zhang and Heather D. Whitley and Tadashi Ogitsu},
journal= {arXiv preprint arXiv:2001.11890},
year = {2020}
}
Comments
18 pages, 5 figures (1 in graphical abstract)