Metal-insulator transition in NiS$_{2-x}$Se$_x$

A. Moewes; B. Schachner; C. A. Kuntscher; Dm. M. Korotin; E. Z. Kurmaev; J. A. McLeod; J. Kunes; K. Rabia; L. Baldassarre; V. I. Anisimov

arxiv: 0907.1745 · v2 · submitted 2009-07-10 · ❄️ cond-mat.str-el · cond-mat.other

Metal-insulator transition in NiS_(2-x)Se_x

J. Kunes , L. Baldassarre , B. Schachner , K. Rabia , C. A. Kuntscher , Dm. M. Korotin , V. I. Anisimov , J. A. McLeod

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E. Z. Kurmaev A. Moewes

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classification ❄️ cond-mat.str-el cond-mat.other

keywords metal-insulatortransitionabsorptionapproximationbandbonding-antibondingchargecombined

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The origin of the gap in NiS2 as well as the pressure- and doping-induced metal-insulator transition in the NiS2-xSex solid solutions are investigated both theoretically using the first-principles band structures combined with the dynamical mean-field approximation for the electronic correlations and experimentally by means of infrared and x-ray absorption spectroscopies. The bonding-antibonding splitting in the S-S (Se-Se) dimer is identified as the main parameter controlling the size of the charge gap. The implications for the metal-insulator transition driven by pressure and Se doping are discussed.

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Metal-insulator transition in NiS_(2-x)Se_x

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