Effect of carrier concentration on magnetism and magnetic order in the pyrochlore iridates

Abstract

We present resistivity, magnetization, and zero field muon spin relaxation (μSR) data for the pyrochlore iridate materials Nd2-xCaxIr2O7 (x = 0, 0.06, and 0.10) and Sm2Ir2O7. While Nd2Ir2O7 (Nd227) is weakly conducting, Sm2Ir2O7 (Sm227) has slowly diverging resistivity at low temperature. Nd227 and Sm227 exhibit magnetic anomalies at TM = 105 K and 137 K, respectively. However, zero-field μSR measurements show that long-range magnetic order of the Ir4+ sublattice sets in at much lower temperatures (TLRO 8 K for Nd227 and 70 K for Sm227); both materials show heavily damped muon precession with a characteristic frequency near 9 MHz. The magnetic anomaly at TM in Nd227 is not significantly affected by the introduction of hole carriers by Ca-substitution in the conducting Nd2-xCaxIr2O7 samples, but the muon precession is fully suppressed for both.