Regensburg 2004 – wissenschaftliches Programm

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TT: Tiefe Temperaturen

TT 32: Theoretische Modelierung von Materialien mit korrelierten Elektronen

TT 32.6: Vortrag

Freitag, 12. März 2004, 11:30–11:45, H18

The spin-state puzzle in cobaltates — •Z. Hu¹, H. Wu², D. Madenci¹, J. Baier¹, T. Lorenz¹, I. Bonn³, C. F e lser³, A. Tanaka⁴, H.H. Hsieh⁵, H.-J. Lin⁵, C.T. C h en⁵, and L.H. Tjeng¹ — ¹II. Physikalisches Institut, Universität zu Köln, Zülpicher Str. 77, 50937 Köln, Germany — ²Max-Plank-Institut für Physik komplexer Systeme, Nöthnitzer Str.38, 01187 Dresden, Germany — ³Johannes Gutenberg-Universität Mainz, Becher Wege 24, 55099 Mainz, Germany 472 — ⁴Department of Materials Science, Faculty of Science, Hiroshima University, Higaschi-Hiroschima, Japan — ⁵Synchrotron Radiation Research Center, No. 1 R&D Road VI, Science Based Industrial Park, Hsinchu 300, Taiwan

We have carried out an experimental and theoretical study on the spin-state of the Co³⁺ ion in the layered Sr₂CoO₃Cl material. Using soft-x-ray absorption spectroscopy at the Co L_2,3 and O K edges, in combination atomic multiplet cluster and LDA+U calculations, we found that the Co³⁺ ion is in the high spin-state, thereby falsifying all claims reported so far in the literature which were based mostly on neutron, magnetic, or crystallographic measurements. Detailed full-potential LDA+U calculations reveal that the persistent high spin state and insulating behavior of Sr₂CoO₃Cl are caused by the CoO₅ pyramidal coordination and, particularly, by the large plane corrugation of the basal CoO₂ layer. Our finding has far reaching implications for other layered cobalt oxides currently under intense debat, e.g., RBaCo₂O_5+x, the layered double perovskites showing metal-insulator transitions and colossal magneto-resistance.