F. E. Sánchez-Zacate, S. N. Arellano-Ahumada, C. Mejía García, E. Díaz Valdés, D. Ramírez-Rosales
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引用次数: 0
Abstract
In this work, two polycrystalline samples were prepared using the solid-state reaction technique. The X-ray diffraction patterns revealed that the samples A and B are a mixture of the superconducting phases (Bi, Pb)-2212 (Bi1.6Pb0.4Sr2CaCu2O8) and (Bi, Pb)-2223 (Bi1.6Pb0.4Sr2Ca2Cu3O10). The \(T_c\) was measured using electron paramagnetic resonance (EPR) in absorption mode: 97 K for the sample A and 101 K for sample B. The EPR spectra were measured (derivative of the absorption) and showed a signal in the low-field region only present in the superconducting state. The study of this signal revealed the coexistence of antiferromagnetism and diamagnetism in the sample A, for \(T < T_{c}\). The same was observed in sample B after a light grinding. The effective penetration depth was estimated from the peak-to-peak linewidth of the EPR signal (at T = 92 K): \(\lambda \)(92 K) = 479 nm for sample A, and 440 nm for sample B. These results are in agreement with the values obtained using techniques such as \(\mu \)-spin rotation and magnetization measurements. With the aid of the two-fluid model and the BCS approximation \(\lambda \) was also estimated at 0 K. Using these values and the Ginzburg-Landau theory, the lower critical field was calculated at T = 92 K and 0 K.
这项研究利用固态反应技术制备了两种多晶样品。X 射线衍射图样显示,样品 A 和 B 是超导相 (Bi, Pb)-2212 (Bi1.6Pb0.4Sr2Ca2CuCu2O8) 和 (Bi, Pb)-2223 (Bi1.6Pb0.4Sr2Ca2Cu3O10) 的混合物。在吸收模式下,使用电子顺磁共振(EPR)测量了\(T_c\):对 EPR 光谱(吸收的导数)进行了测量,结果表明在低磁场区有一个仅存在于超导态的信号。对这一信号的研究表明,在样品 A 中,反铁磁性和二磁性共存(T < T_{c}\)。在经过轻微研磨后的样品 B 中也观察到了同样的情况。根据 EPR 信号的峰峰线宽(T = 92 K 时)估算出有效穿透深度:\样品 A 的有效穿透深度为 479 nm,样品 B 的有效穿透深度为 440 nm。这些结果与使用自旋旋转和磁化测量等技术获得的数值一致。借助双流体模型和 BCS 近似,还估算出了 0 K 时的\(\lambda \)。利用这些值和金兹堡-朗道理论,计算出了 T = 92 K 和 0 K 时的下临界磁场。
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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