GdPdAl 和 TbPdAl 中磁性转变的量热研究

IF 1.6 4区 物理与天体物理 Q3 PHYSICS, APPLIED
Priyanshi Tiwari, Rajeev Joshi, Suman Karmakar, Kranti Kumar, A. K. Yogi, R. Rawat
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引用次数: 0

摘要

本文介绍了在六方 ZrNiAl 型晶体结构(空间群 P\(\bar{6}\)2 m)中结晶的 GdPdAl 和 TbPdAl 化合物的比热(C\(_{P}\) )比较研究。与之前的报告一致,这两种化合物在磁化数据中都显示出两种磁性转变的特征。GdPdAl 在 T\(_{N1}\) (\(\sim\)47 K)高温转变时 C\(_{P}\) 的跃迁幅度表明它正在排序为一种调幅磁结构。对磁熵变化(S/(_{4f}/))的分析表明,S/(_{4f}/)总量的大约二分之一发生在T/(_{N2}/)的低温转变以下。这与 TbPdAl 中的情况形成鲜明对比,在 T\(_{N2}\) 时,只有三分之一的转变熵发生在温度以下。对于这两种化合物来说,S/(_{4f}/)都趋于饱和,达到稀土矩完全有序化所预期的约84%(对于T > T\(_{N1}\) ),这表明几何挫折并没有完全消除。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Calorimetric Investigation of Magnetic Transitions in GdPdAl and TbPdAl

Calorimetric Investigation of Magnetic Transitions in GdPdAl and TbPdAl

A comparative specific heat (C\(_{P}\)) study of GdPdAl and TbPdAl compounds crystallizing in hexagonal ZrNiAl-type crystal-structure (space group P\(\bar{6}\)2 m) is presented. Consistent with earlier reports both the compounds show the signature of two magnetic transitions in magnetization data. The magnitude of the jump in C\(_{P}\) at the high-temperature transition at T\(_{N1}\) (\(\sim \)47 K ) in GdPdAl indicates ordering into an amplitude-modulated magnetic structure. The analysis of magnetic entropy change (S\(_{4f}\)) showed that about one-half of total S\(_{4f}\) occurs below low temperature transition at T\(_{N2}\). This is in contrast to that seen in TbPdAl, where only one-third of the entropy of transition occurs below T\(_{N2}\). For both the compounds S\(_{4f}\) tends to saturate to about 84% (for T > T\(_{N1}\)) of that expected for complete ordering of the rare earth moments, indicating incomplete removal of geometrical frustration.

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来源期刊
Journal of Superconductivity and Novel Magnetism
Journal of Superconductivity and Novel Magnetism 物理-物理:凝聚态物理
CiteScore
3.70
自引率
11.10%
发文量
342
审稿时长
3.5 months
期刊介绍: The Journal of Superconductivity and Novel Magnetism serves as the international forum for the most current research and ideas in these fields. This highly acclaimed journal publishes peer-reviewed original papers, conference proceedings and invited review articles that examine all aspects of the science and technology of superconductivity, including new materials, new mechanisms, basic and technological properties, new phenomena, and small- and large-scale applications. Novel magnetism, which is expanding rapidly, is also featured in the journal. The journal focuses on such areas as spintronics, magnetic semiconductors, properties of magnetic multilayers, magnetoresistive materials and structures, magnetic oxides, etc. Novel superconducting and magnetic materials are complex compounds, and the journal publishes articles related to all aspects their study, such as sample preparation, spectroscopy and transport properties as well as various applications.
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