Hysteresis in the electronic transport of V2O3 thin films: Non-exponential kinetics and range scale of phase coexistence

C. Grygiel; A. Pautrat; W. Prellier; B. Mercey

doi:10.1209/0295-5075/84/47003

Hysteresis in the electronic transport of V₂O₃ thin films: Non-exponential kinetics and range scale of phase coexistence

C. Grygiel¹, A. Pautrat¹, W. Prellier¹ and B. Mercey¹

Published 10 November 2008 • Europhysics Letters Association
Europhysics Letters, Volume 84, Number 4 Citation C. Grygiel et al 2008 EPL 84 47003 DOI 10.1209/0295-5075/84/47003

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¹ Laboratoire CRISMAT, UMR 6508 du CNRS, ENSICAEN and Université de Caen 6 Bd Maréchal Juin, F-14050 Caen 4, France, EU

Dates

Received 29 July 2008
Accepted 9 October 2008
Published 10 November 2008

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Abstract

The thermal hysteresis of the electronic transport properties was studied for V₂O₃ thin films. The temporal evolution of the resistance shows the out-of-equilibrium nature of this hysteresis with a very slow relaxation. Partial cycles reveal not only a behavior consistent with phase coexistence, but also the presence of spinodal temperatures which are largely separated. The temperature spreading of phase coexistence is consistent with the bulk phase diagram in the pressure-temperature plane, confirming that the film is effectively under an effective pressure induced by the substrate.

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