Neutron diffraction studies on a ferromagnetic layered manganite La2-2xSr1+2xMn2O7 (x=0.3) prepared by a ceramic method

Low-temperature neutron diffraction data on a ceramic sample of layered per ovskite type La-2-2xSr1+2XMn2O7, x = 0.3, are reported. The neutron diffrac tion data show that this compound undergoes a ferromagnetic transition at 1 00 K (T-C), but there is no antiferromagnetic signal as reported on a float ing zone melt grown sample of the same nominal composition. The unit cell c onstants and cell volume for this nominal x = 0.3 sample are slightly large r than those for samples which do show an antiferromagnetic component which indicates a higher Sr content. The magnetic structure was determined to ha ve colinear Mn spins with a tilting angle against the c axis. The tilting a ngle abruptly increases from about 20 degrees near T-c to about 50 degrees at 75 K and then gradually decreases afterwards to 30 degrees at 15 K. This anomalous tilting angle behavior correlates with a distortion index based on the variance of the Mn-O bond distances and can be understood qualitativ ely with a simple crystal field argument. Below T-C there is a magnetostric tive effect on the c axis which correlates with the behaviors of the spin o rientation and the Mn-O bond distances. [S0163-1829(99)08241-7].