Enhanced magnetocaloric effects in metastable phases of Mn1− x Co x NiGe generated through thermal quenching and high-pressure annealing

Metastable phases were formed in Mn1−xCoxNiGe (x=0.05 and 0.08) by annealing at 800 °C followed by rapid cooling, i.e., quenching, at ambient pressure (P=0) and under a pressure of P=3.5 GPa, and their phase transitions and associated magnetocaloric properties were investigated. The crystal cell vol...

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Published in:Journal of applied physics 2023-02, Vol.133 (6)
Main Authors: Poudel Chhetri, Tej, Chen, Jing-Han, Grant, Anthony T., Young, David P., Dubenko, Igor, Talapatra, Saikat, Ali, Naushad, Stadler, Shane
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container_issue 6
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container_title Journal of applied physics
container_volume 133
creator Poudel Chhetri, Tej
Chen, Jing-Han
Grant, Anthony T.
Young, David P.
Dubenko, Igor
Talapatra, Saikat
Ali, Naushad
Stadler, Shane
description Metastable phases were formed in Mn1−xCoxNiGe (x=0.05 and 0.08) by annealing at 800 °C followed by rapid cooling, i.e., quenching, at ambient pressure (P=0) and under a pressure of P=3.5 GPa, and their phase transitions and associated magnetocaloric properties were investigated. The crystal cell volumes of the metastable phases decreased, and their structural transitions significantly shifted to lower temperatures relative to those of the slow-cooled compounds, with a greater reduction observed in the samples where the rapid cooling occurred under high pressures. The magnetic and structural transitions coupled to form a magnetostructural transition in the metastable phases, resulting in large magnetic entropy changes up to −79.6 J kg−1 K−1 (x=0.08) for a 7-T field change. The experimental results demonstrate thermal quenching and high-pressure annealing as alternative methods to create magnetostructural transitions, without modifying the compositions of the materials.
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title Enhanced magnetocaloric effects in metastable phases of Mn1− x Co x NiGe generated through thermal quenching and high-pressure annealing
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