Magnetic Anomalies in a New Manganocuprate Gd3Ba2Mn2Cu2O12

TL;DR

This study synthesizes and investigates the magnetic properties of Gd3Ba2Mn2Cu2O12, revealing multiple magnetic transitions, spin-glass behavior, and a significant magnetocaloric effect at low temperatures.

Contribution

It reports the synthesis and detailed magnetic characterization of a new manganocuprate compound with novel magnetic transition behaviors and potential magnetocaloric applications.

Findings

Identified three magnetic transitions at 2.5, 4.8, and 9 K.

Observed spin-glass-like freezing at low temperatures.

Detected a large magnetocaloric effect below 50 K.

Abstract

The manganocuprate compound Gd3Ba2Mn2Cu2O12 (Gd-3222) has been synthesized by conventional solid state reaction method and its magnetic behavior has been studied by dc and ac magnetization (M) and heat capacity (C) measurements as a function of temperature (T). This compound crystallizes in a tetragonal structure (space group I4/mmm). We find that this compound exhibits three magnetic transitions, around 2.5, 4.8 and 9 K, as inferred from dc and ac magnetic susceptibility (chi) data. However, no evidence for a well-defined lambda-anomaly is found in C(T) above 1.8 K, though there is a gradual upturn below about 10 K. An application of a magnetic field results in a peak around 5K, while ac chi appears to show a very weak frequency dependence below 9 K. Isothermal M curve at 1.8 K exhibits a weak hysteresis without any evidence for saturation even at fields as high as 120 kOe. These results imply that this compound undergoes a spin-glass-like freezing at low temperatures, though the exact nature of the magnetic transition at 10 K is not clear. The magnitude of the magnetocaloric effect, as inferred from M and C data, is quite large over a wide temperature range below 50 K peaking around 4 K.