Universal scaling of latent heat of orbital order-disorder transition with average R-site ion size in perovskite RMnO3 systems
Abstract
The latent heat (L) of orbital order-disorder transition in single-valent perovskite manganite series La(1-x)R(x)MnO3 (R = Pr, Nd, Gd; x = 0.0-1.0) decreases with the decrease in average R-site radius <rR> following a universal scaling law L.<rR>2/sigma2 ~ exp (<rR>), where sigma2 is the variance in R-site radius, and eventually reaches zero at a critical R-site radius <rR>c ~ 1.180 Angstrom. Such a drop in L is due, possibly, to a universal pattern of evolution of finer orbital domain structure with the drop in <rR> as well as with the increase in sigma2 irrespective of R-site ion type.
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