Spin-lattice coupling effects in the Holstein double-exchange model

Alexander Weisse; Holger Fehske; Dieter Ihle

arXiv:cond-mat/0406049·cond-mat.str-el·May 23, 2007

Spin-lattice coupling effects in the Holstein double-exchange model

Alexander Weisse, Holger Fehske, Dieter Ihle

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TL;DR

This paper investigates how lattice polaron formation affects the colossal magneto-resistance transition in doped manganites using a Holstein double-exchange model and an efficient Monte Carlo method.

Contribution

It introduces a detailed study of spin-lattice coupling effects in the Holstein double-exchange model, highlighting the impact on CMR transition behavior.

Findings

01

Lattice polaron formation significantly influences the CMR transition.

02

The Monte Carlo approach efficiently captures the interplay of double-exchange and polaron effects.

03

Polaron effects are crucial in understanding the magnetic and transport properties of manganites.

Abstract

Based on the Holstein double-exchange model and a highly efficient single cluster Monte Carlo approach we study the interplay of double-exchange and polaron effects in doped colossal magneto-resistance (CMR) manganites. The CMR transition is shown to be appreciably influenced by lattice polaron formation.

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