Absence of magnetic long range order in Y2CrSbO7: bond-disorder induced magnetic frustration in a ferromagnetic pyrochlore

Abstract

The consequences of nonmagnetic-ion dilution for the pyrochlore family Y2(M1-xNx)2O7 (M = magnetic ion, N = nonmagnetic ion) have been investigated. As a first step, we experimentally examine the magnetic properties of Y2CrSbO7 (x = 0.5), in which the magnetic sites (Cr3+) are percolative. Although the effective Cr-Cr spin exchange is ferromagnetic, as evidenced by a positive Curie-Weiss temperature, CW = 20.1(6) K, our high-resolution neutron powder diffraction measurements detect no sign of magnetic long range order down to 2 K. In order to understand our observations, we performed numerical simulations to study the bond-disorder introduced by the ionic size mismatch between M and N. Based on these simulations, bond-disorder (xb 0.23) percolates well ahead of site-disorder (xs 0.61). This model successfully reproduces the critical region (0.2 < x < 0.25) for the N\'eel to spin glass phase transition in Zn(Cr1-xGax)2O4, where the Cr/Ga-sublattice forms the same corner-sharing tetrahedral network as the M/N-sublattice in Y2(M1-xNx)2O7, and the rapid drop in magnetically ordered moment in the N\'eel phase [Lee et al, Phys. Rev. B 77, 014405 (2008)]. Our study stresses the nonnegligible role of bond-disorder on magnetic frustration, even in ferromagnets.