First principle modeling of magnetic structure in Fe-C and intermetalics

Aurelian Rusanu; Donald Nicholson; Markus Eisenbach; G.M. Stocks

First principle modeling of magnetic structure in Fe-C and intermetalics

ORAL

Abstract

Magnetic structure in Fe rich materials presents a high dependence on local atomic arrangement affecting mechanical, magneto-caloric, and magnetization properties. Insights into local properties and bulk effects can be obtained from first principle analysis. In this study we deploy the LSMS and VASP methods to model the ground states of various Fe-C systems. Behavior at finite temperature would be discussed in terms of diffusion barriers calculated by nudged elastic band method(VASP) and the energy of the magnetic fluctuations by constrained density functional theory (LSMS).

^*Research performed at Oak Ridge National Lab under the auspices of the Division of Materials Science and Engineering, Offices of BES and EERE of the US Department of Energy, managed by UT-Battelle, LLC, for the U. S. Department of Energy.

March 17, 2010, 12:51 PM – March 17, 2010, 1:03 PM

Authors

Aurelian Rusanu
- Oak Ridge National Laboratory
- ORNL
Donald Nicholson
- ORNL
- Oak Ridge National Laboratory
Markus Eisenbach
- Oak Ridge National Laboratory
G.M. Stocks
- ORNL
- Oak Ridge National Laboratory
- Materials Science and Technology Division, ORNL, Oak Ridge, TN
- Materials Science and Technology Division, ORNL, Oak Ridge, TN 37831