Elastic and magnetic properties on field-induced Metal-Insulator transition of bilayer manganese oxide (La1-z Prz)1.2 Sr1.8 Mn2 O7 (z=0.6)

Abstract

The elastic and magnetic properties of a single crystal of 327 bilayer manganese oxide (La1-z Prz)1.2 Sr1.8 Mn2 O7 with z=0.6 have been investigated by ultrasonic and high-field magnetization measurements. A distinct elastic anomaly was observed at low temperatures and in high magnetic fields when crossing the phase boundary. A pronounced elastic softening as a function of magnetic field (H) appears across the boundary of the low-temperature magnetic phase below around 40 K, accompanied by a distinct hysteresis. In the high field region, however, these elastic constants exhibit an increase with increasing a magnetic field in the high-field region. The high-field magnetization measurement characterizing the magnetic state clarified a strong connection between elastic strains and magnetic moments. The new metamagnetic transition was found in the high-field region above 40 K, accompanied with no hysteresis. The present results of elastic constants are discussed in terms of a coupling effect between elastic strains associated with sound waves and relevant magnetic moments, and relevant conduction bands. They are explained reasonably in terms of a strong coupling between elastic strains and magnetic susceptibility chim=partialM/partialH.

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