BaFe2(As0.68P0.32)2超导单晶中的磁记忆效应。

IF 3.1 3区材料科学 Q3 CHEMISTRY, PHYSICAL

Materials Pub Date : 2024-10-31 DOI:10.3390/ma17215340

Alina M Badea Ionescu, Ion Ivan, Corneliu F Miclea, Daniel N Crisan, Armando Galluzzi, Massimiliano Polichetti, Adrian Crisan

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引用次数: 0

摘要

在众多铁基超导体中，当 x ≈ 0.3 时，异价取代的 BaFe2(As1-xPx)2 除了在临界电流密度的磁场依赖性中显示出常见的二次磁化峰（SMP）之外，还在恒定磁场中临界电流密度的温度依赖性中显示出不同寻常的峰值效应，这与布拉格涡流玻璃（BVG）的菱形到方形（RST）结构转变有关。通过在三种不同的冷却状态（场冷却、零场冷却和场冷却并在升温过程中进行测量）下使用多谐交流电感研究，我们发现了存在明显磁记忆效应的温度区域，并将其归因于结构转变的方向。在高低交流频率下观察到的三次谐波磁感应强度的巨大差异表明，结构转变的时间尺度与涡旋激发的时间尺度不同。我们的研究结果表明，RST 对涡旋动力学的影响超出了之前观测到的对 SMP 开始的影响。

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Magnetic Memory Effects in BaFe₂(As_0.68P_0.32)₂ Superconducting Single Crystal.

Among many iron-based superconductors, isovalently substituted BaFe₂(As_1-xP_x)₂ displays, for x ≈ 0.3, apart from the quite usual Second Magnetization Peak (SMP) in the field dependence of the critical current density, an unusual peak effect in the temperature dependence of the critical current density in the constant field, which is related to the rhombic-to-square (RST) structural transition of the Bragg vortex glass (BVG). By using multi-harmonic AC susceptibility investigations in three different cooling regimes-field cooling, zero-field cooling, and field cooling with measurements during warming up-we have discovered the existence of a temperature region in which there is a pronounced magnetic memory effect, which we attributed to the direction of the structural transition. The observed huge differences in the third harmonic susceptibility at low and high AC frequencies indicates the difference in the time-scale of the structural transition in comparison with the timescale of the vortex excitations. Our findings show that the RST influence on the vortex dynamics goes beyond the previously observed influence on the onset of the SMP.

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来源期刊

Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

5.80

自引率

14.70%

发文量

7753

审稿时长

1.2 months

期刊介绍： Materials (ISSN 1996-1944) is an open access journal of related scientific research and technology development. It publishes reviews, regular research papers (articles) and short communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Materials provides a forum for publishing papers which advance the in-depth understanding of the relationship between the structure, the properties or the functions of all kinds of materials. Chemical syntheses, chemical structures and mechanical, chemical, electronic, magnetic and optical properties and various applications will be considered.