T. Haupricht, J. Weinen, A. Tanaka, R. Gierth, S. G. Altendorf, Y. -Y. Chin, T. Willers, J. Gegner, H. Fujiwara, F. Strigari, A. Hendricks, D. Regesch, Z. Hu, Hua Wu, K. -D. Tsuei, Y. F. Liao, H. H. Hsieh, H. -J. Lin, C. T. Chen, L. H. Tjeng
We report on a comparative study of the valence band electronic structure of NiO as bulk material and of NiO as impurity in MgO. From the impurity we have been able to determine reliably the parameters which describe the local correlations, thereby establishing the compensated-spin character of the first ionization state or the state created by hole doping. Using bulk-sensitive x-ray photoemission we identify pronounced satellite features in the valence band of bulk NiO which cannot be explained by single-site many body approaches nor by mean field calculations. We infer the presence of screening processes involving local quasi-core states in the valence band and non-local coherent many body states. These processes are strong and the propagation of an extra hole in the valence band of NiO will therefore be accompanied by a range of high energy excitations. This in turn will make the observation of the dispersion relations in the Ni 3d bands difficult, also because the effective band width is no more than 0.25 eV as estimated from multi-site calculations.
View original:
http://arxiv.org/abs/1210.6675
No comments:
Post a Comment