Mott versus Slater-type metal-insulator transition in Mn-substituted Sr3Ru2O7

A. Damascelli; A. G. Cruz; A. Tanaka; B. Bohnenbuck; B. Keimer; C. T. Chen; G. A. Sawatzky; H.-J. Lin; I. S. Elfimov; L. H. Tjeng

arxiv: 1206.4689 · v1 · pith:ARR2MTQVnew · submitted 2012-06-20 · ❄️ cond-mat.str-el

Mott versus Slater-type metal-insulator transition in Mn-substituted Sr3Ru2O7

M. A. Hossain , B. Bohnenbuck , Y. D. Chuang , M. W. Haverkort , I. S. Elfimov , A. Tanaka , A. G. Cruz , Z. Hu

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H.-J. Lin C. T. Chen R. Mathieu Y. Tokura Y. Yoshida L. H. Tjeng Z. Hussain B. Keimer G. A. Sawatzky A. Damascelli

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keywords ordercorrelationsimpuritiesmetal-insulatorrexsslater-typetransitionx-ray

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We present a temperature-dependent x-ray absorption (XAS) and resonant elastic x-ray scattering (REXS) study of the metal-insulator transition (MIT) in Sr3(Ru1-xMnx)2O7. The XAS results reveal that the MIT drives the onset of local antiferromagnetic correlations around the Mn impurities, a precursor of the long-range antiferromagnetism detected by REXS at T_order<T_MIT. This establishes that the MIT is of the Mott-type (electronic correlations) as opposed to Slater-type (magnetic order). While this behavior is induced by Mn impurities, the (1/4,1/4,0) order exists for a wide range of Mn concentrations, and points to an inherent instability of the parent compound.

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Mott versus Slater-type metal-insulator transition in Mn-substituted Sr3Ru2O7

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