Superferromagnetic传感器

V. N. Kondratyev, V. Osipov
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引用次数: 1

摘要

在基于能带结构的壳层模型中分析了强铁磁性纳米粒子,该模型考虑了导电电子的离散量子水平。正如所证明的,这种方法允许描述观察到的这些纳米晶体的超顺磁性特征。将这种超顺磁体组合到非磁性绝缘体、半导体或金属衬底中,显示出铁磁耦合,从而在足够密集的包装中产生超铁磁有序。利用随机跳跃相互作用矩模型研究了这类超材料的性质,该模型考虑了由离散电子能级和无序引起的量子涨落。对这类超顺磁组合采用平均场处理,得到了表明其不稳定行为条件的磁态方程。这类系综的磁相图上分别出现磁旋轴区和临界点。各自的磁动力学表现为在磁感应曲线上不规则的随机跳跃。在临界点处,磁动力学表现出自组织临界的特征。磁噪声相关性分析是一种独立于模型的分析工具,用于确定、量化和分析超铁磁性的磁结构和起源。我们讨论了与空间局部外场相关的超铁磁反应性的传感器模式应用的一些结果,例如,磁性粒子的检测。电荷载流子在超顺磁粒子间的输运被认为是隧穿和朗道能级态动力学。隧道磁电阻随纳米磁体尺寸的减小而显著增大。巨磁电阻由飞行时间和弛豫时间的比值决定,在室温下是显著的。揭示了具有传感器含义的超铁磁系统的有利设计。
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Superferromagnetic Sensors
The strong ferromagnetic nanoparticles are analyzed within the band structure-based shell model, accounting for discrete quantum levels of conducting electrons. As is demonstrated, such an approach allows for the description of the observed superparamagnetic features of these nanocrystals. Assemblies of such superparamagnets incorporated into nonmagnetic insulators, semiconductors, or metallic substrates are shown to display ferromagnetic coupling, resulting in a superferromagnetic ordering at sufficiently dense packing. Properties of such metamaterials are investigated by making use of the randomly jumping interacting moments model, accounting for quantum fluctuations induced by the discrete electronic levels and disorder. Employing the mean-field treatment for such superparamagnetic assemblies, we obtain the magnetic state equation, indicating conditions for an unstable behavior. Respectively, magnetic spinodal regions and critical points occur on the magnetic phase diagram of such ensembles. The respective magnetodynamics exhibit jerky behavior expressed as erratic stochastic jumps in magnetic induction curves. At critical points, magnetodynamics displays the features of self-organized criticality. Analyses of magnetic noise correlations are proposed as model-independent analytical tools employed in order to specify, quantify, and analyze the magnetic structure and origin of superferromagnetism. We discuss some results for a sensor-mode application of superferromagnetic reactivity associated with spatially local external fields, e.g., the detection of magnetic particles. The transport of electric charge carriers between superparamagnetic particles is considered tunneling and Landau-level state dynamics. The tunneling magnetoresistance is predicted to grow noticeably with decreasing nanomagnet size. The giant magnetoresistance is determined by the ratio of the respective times of flight and relaxation and can be significant at room temperature. Favorable designs for superferromagnetic systems with sensor implications are revealed.
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来源期刊
Nanomanufacturing and Metrology
Nanomanufacturing and Metrology Materials Science-Materials Science (miscellaneous)
CiteScore
5.40
自引率
0.00%
发文量
36
期刊介绍: Nanomanufacturing and Metrology is a peer-reviewed, international and interdisciplinary research journal and is the first journal over the world that provides a principal forum for nano-manufacturing and nano-metrology.Nanomanufacturing and Metrology publishes in the forms including original articles, cutting-edge communications, timely review papers, technical reports, and case studies. Special issues devoted to developments in important topics in nano-manufacturing and metrology will be published periodically.Nanomanufacturing and Metrology publishes articles that focus on, but are not limited to, the following areas:• Nano-manufacturing and metrology• Atomic manufacturing and metrology• Micro-manufacturing and metrology• Physics, chemistry, and materials in micro-manufacturing, nano-manufacturing, and atomic manufacturing• Tools and processes for micro-manufacturing, nano-manufacturing and atomic manufacturing
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