Griffiths phase and critical behavior in layered Sr$_2$IrO$_4$ ferromagnet

TL;DR

This study identifies Griffiths phase and critical behavior in layered Sr$_2$IrO$_4$ ferromagnet, revealing unconventional critical exponents and suggesting Bray model as a new analysis tool for Griffiths ferromagnets.

Contribution

It demonstrates the presence of Griffiths phase in Sr$_2$IrO$_4$ and introduces Bray model as an effective method for analyzing critical behavior in such systems.

Findings

Griffiths phase exists between T$_C$ and T$_G$ in Sr$_2$IrO$_4$

Unusual critical exponents are observed via modified Arrott plot

Bray model yields a consistent 2D XYh$_4$ universality class

Abstract

We report the existence of Griffiths phase (GP) and its influence on critical phenomena in layered Sr$_2$IrO$_4$ ferromagnet (T$_C$ = 221.5 K). The power law behavior of inverse magentic susceptibility, 1/$\chi$(T) with exponent $\lambda = 0.18(2)$ confirm the GP in the regime T$_C$ $<$ T $\leq$ T$_G$ = 279.0(5) K. Moreover, the detailed critical analysis via modified Arrott plot method exhibits unrealistic critical exponents $\beta$ = 0.77(1), $\gamma$ = 1.59(2) and $\delta = 3.06(4)$, in corroboration with magneto-caloric study. The abnormal exponent values have been viewed in context of ferromagnetic-Griffiths phase transition. The GP has been further analyzed using Bray model, which yields a reliable value of $\beta$ = 0.19(2), belonging to the two-dimensional (2D) XYh$_4$ universality class with strong anisotropy present in Sr$_2$IrO$_4$. The present study proposes Bray model as a possible tool to investigate the critical behavior for Griffiths ferromagnets in place of conventional Arrott plot analysis. The possible origins of GP and its correlation with insulating nature of Sr$_2$IrO$_4$ have been discussed.