| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1529569 | Materials Science and Engineering: B | 2012 | 7 Pages |
We present an atomistic study on the phase stability, site preference and lattice constants of the rare earth or actinium intermetallics Ce6Rh30Si19 and A6Pt30Si19 (A = Th, U). The calculated preferential occupation site of one Si atom is found to be the 2b site in Ce6Rh30Si19 and A6Pt30Si19. The Si atom is located at the sites 2b with occupancy close to 50%. Our calculated lattice constants agree with a report in the literature. The total and partial phonon densities of states are evaluated first for these complicated defect structures. The analysis of the inverted potentials explains qualitatively the contributions of different atoms to the vibrational modes.
► There are no reports on lattice vibrations of Ce6Rh30Si19 and A6Pt30Si19 (A = Th, U). ► The potentials of actinide compounds have not been reported. ► The phase stability and site preference are evaluated first for the complicated defect structures of Ce6Rh30Si19 and A6Pt30Si19 (A = Th, U) compounds. ► The lattice inversion method to obtain the interatomic pair potential is the unique one.
