Valence-electron transfer and a metal-insulator transition in a strongly
  correlated perovskite oxide

A.P Ramirez; Abbate; Cao; Cao; D Li; Friedt; G Lawes; He; Homes; Khalifah; Kim; Koitzsch; Kumagai; Labeau; Lee; M.A Subramanian; Maeno; McLaughlin; Nakatsuji; Nakatsuji; Ovchinnikov; Ramirez; Ramirez; Subramanian; Subramanian; Tallon

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Valence-electron transfer and a metal-insulator transition in a strongly correlated perovskite oxide

Authors: A.P Ramirez
Abbate
Cao
Cao
D Li
Friedt
G Lawes
He
Homes
Khalifah
Kim
Koitzsch
Kumagai
Labeau
Lee
M.A Subramanian
Maeno
McLaughlin
Nakatsuji
Nakatsuji
Ovchinnikov
Ramirez
Ramirez
Subramanian
Subramanian
Tallon
Publication date: 30 March 2004
Publisher: 'Elsevier BV'
Doi

Abstract

We present transport and thermal data for the quadruple-perovskites MCu3(Ti1-xRux)4O12 where 0 < x < 1. A metal-insulator transition (MIT) occurs for Ru concentrations x~0.75. At the same time, the Cu2+ antiferromagnetic state is destroyed and it's magnetic entropy suppressed by Ru on a 1:1 basis. This implies that each Ru transfers an electron to a Cu ion and thus the MIT correlates with filling the Cu 3d shell. The Cu spin entropy in this strongly correlated electron material provides a unique probe among MIT systems.Comment: 15 pages, 4 figures, 1 tabl

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