Resistivity of Mixed-Phase Manganites

1 January 2001

journal article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 86 (1) , 135-138
https://doi.org/10.1103/physrevlett.86.135

Abstract

The resistivity rho(dc) of manganites is studied using a random resistor-network, based on phase separation between metallic and insulating domains. When percolation occurs, both as chemical composition or temperature vary, results in good agreement with experiments are obtained. Similar conclusions are reached using quantum calculations and microscopic considerations. Above the Curie temperature, it is argued that ferromagnetic clusters should exist in Mn oxides. Small magnetic fields induce large rho(dc) changes and a bad-metal state with (disconnected) insulating domains.

Keywords

All Related Versions

Version 1, 2000-07-28, ArXiv

This publication has 20 references indexed in Scilit:

Orbital Physics in Transition-Metal Oxides
Science, 2000
Ferromagnetic, $A$ -Type, and Charge-Ordered $CE$ -Type States in Doped Manganites Using Jahn-Teller Phonons
Physical Review Letters, 2000
Topological Scenario for Stripe Formation in Manganese Oxides
Physical Review Letters, 2000
Charge and Orbital Order in Half-Doped Manganites
Physical Review Letters, 1999
Percolative phase separation underlies colossal magnetoresistance in mixed-valent manganites
Nature, 1999
Phase Separation Scenario for Manganese Oxides and Related Materials
Science, 1999
Local lattice distortions in ${La}_{1 - x} {Sr}_{x} {MnO}_{3}$ studied by pulsed neutron scattering
Physical Review B, 1999
Phase Separation Induced by Orbital Degrees of Freedom in Models for Manganites with Jahn-Teller Phonons
Physical Review Letters, 1998
Phase Separation in Electronic Models for Manganites
Physical Review Letters, 1998
Colossal magnetoresistance in manganese oxide perovskites
Journal of Magnetism and Magnetic Materials, 1998