Magnetic reconstruction at (001) CaMnO$_3$ surface
arXiv:cond-mat/9907173 · doi:10.1103/PhysRevLett.83.4184
Abstract
The Mn-terminated (001) surface of the stable anti-ferromagnetic insulating phase of cubic perovskite CaMnO$_3$ is found to undergo a magnetic reconstruction consisting on a spin-flip process at surface: each Mn spin at the surface flips to pair with that of Mn in the subsurface layer. In spite of very little Mn-O charge transfer at surface, the surface behavior is driven by the $e_g$ states due to $d_{xy}$ $\to$ $d_{z^2}$ charge redistribution. These results, based on local spin density theory, give a double exchange like coupling that is driven by $e_g$ character, not additional charge, and may have relevance to CMR materials.
4 pages, 5 figures reference added Fig. 3 modified. Caption of Fig. 5 modified