Symmetry reduction of δ-plutonium: an electronic-structure effect-Reference-Cited by-同舟云学术

Symmetry reduction of δ-plutonium: an electronic-structure effect

Published:2005 Issue: Volume:893 Page:
ISSN:0272-9172
Container-title:MRS Proceedings
language:en
Short-container-title:MRS Proc.

Author:

Moore Kevin T.,Söderlind Per,Schwartz Adam J.,Laughlin David

Abstract

AbstractUsing first-principles density-functional theory calculations, we show that the anomalously large anisotropy of δ-plutonium is a consequence of greatly varying bond-strengths between the 12 nearest neighbors. Employing the calculated bond strengths, we expand the tenants of classical crystallography by incorporating anisotropy of chemical bonds, which yields a structure with the monoclinic space groupCmfor δ-plutonium rather than face-centered cubicFm3m. The reduced space group for δ-plutonium enlightens why the ground state of the metal is monoclinic, why distortions of the metal are viable, and has considerable implications for the behavior of the material as it ages. These results illustrate how an expansion of classical crystallography that accounts for anisotropic electronic structure can explain complicated materials in a novel way.

Publisher

Springer Science and Business Media LLC

Subject

General Engineering

Reference35 articles.

1. [13] Moore K.T. , Söderlind P. , Schwartz A.J. , Laughlin D.E. , submitted to Phys. Rev. Lett.

2. Unusual Phonon Softening inδ-Phase Plutonium

3. [35] We have attempted detection of extra reflections using electron diffraction in a transmission electron microscope (TEM). However, high thermal diffuse scattering, large amounts of double diffraction due to the high atomic number, and omnipresent surface oxidation have precluded the ability to do this. For these reasons, x-ray diffraction of large, single-grain samples performed at low temperatures will be the appropriate experiment.

4. Crystallography of the δ→α phase transformation in a PuGa alloy