Influence of chemical substituents on the superconductivity of the system Bi4Ca3Sr3Cu4Oy

Journal of Physics F: Metal Physics Pub Date : 1988-08-01 DOI:10.1088/0305-4608/18/8/004
E. Sampathkumaran, N. Ikeda, K. Kohn, R. Vijayaraghavan
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引用次数: 20

Abstract

The effect of the partial replacement of Bi by Eu, Gd, K and Pb, and Cu by Ni, on the superconducting transition temperature (Tc) of Bi4Ca3Sr3Cu4Oy (y=undetermined) is investigated by DC resistivity (R) and AC susceptibility ( chi ) measurements. Tc is not significantly altered by Eu and Gd substituents (Tc close to 65 K); however, K and Pb substituents tend to enhance the fraction of a phase superconducting around 110 K. Interestingly, for nickel specimens, Tc of a large fraction, as suggested by AC chi data, initially decreases to 40 K with increasing concentration of nickel, followed by an increase, whereas R data shows no appreciable variation of Tc.
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化学取代基对Bi4Ca3Sr3Cu4Oy体系超导性的影响
通过直流电阻率(R)和交流磁化率(chi)测量,研究了Eu、Gd、K和Pb部分取代Bi和Ni部分取代Cu对Bi4Ca3Sr3Cu4Oy (y=待定)超导转变温度(Tc)的影响。Eu和Gd取代基对Tc的影响不明显(Tc接近65 K);然而,K和Pb取代基倾向于提高110 K左右的相超导分数。有趣的是,对于镍试样,从AC chi数据可以看出,随着镍浓度的增加,大分数的Tc最初降低到40 K,然后增加,而R数据显示Tc没有明显变化。
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Journal of Physics F: Metal Physics
Journal of Physics F: Metal Physics
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