For user's convenience, input files for six examples can be found in 'work/work/unfolding_example' as follows:
The primitive cell of SiC in a two-dimensional honeycomb structure without imperfection for analyzing how each band consists of pseudo-atomic orbitals, where the collinear non-spin polarized calculation is performed.
The () supercell of SiC in a two-dimensional honeycomb structure without imperfection for unfolding bands, where the collinear non-spin polarized calculation is performed.
The () supercell of SiC in a two-dimensional honeycomb structure with a Si vacancy for unfolding bands, where the collinear spin polarized calculation is performed.
The () supercell of SiC in a two-dimensional honeycomb structure without imperfection for unfolding bands, where the non-collinear calculation is performed with spin-orbit coupling.
The () supercell of SiC in a two-dimensional honeycomb structure with a Si vacancy for unfolding bands, where the non-collinear calculation is performed with spin-orbit coupling.
The primitive cell of Fe in the BCC structure without imperfection for analyzing how each band consists of pseudo-atomic orbitals, where the collinear spin polarized calculation is performed.
The cubic cell of Fe in the BCC structure without imperfection for unfolding bands, where the collinear spin polarized calculation is performed.
The cubic cell of Fe in the BCC structure with structural disorder for unfolding bands, where the non-collinear calculation is performed with spin-orbit coupling.
2016-04-03