Interlayer Critical Current in the Vortex State of Bi2Sr2CaCu2O8+δ Intrinsic Junctions

Applied Superconductivity Pub Date : 1998-07-01 DOI:10.1016/S0964-1807(98)00074-X

Takashi Yasuda , Tetsuji Uchiyama , Takeshi Fukami , Takafumi Aomine , Shuzo Takano

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引用次数: 1

Abstract

We measure the current-voltage (I–V) characteristics of the Bi₂Sr₂CaCu₂O_8+δ intrinsic Josephson junctions in the magnetic field parallel to the c-axis. In the liquid phase of vortices, the I–V curve reveals three stages: ohmic relation at low currents, rapid resistive transition and a quasiparticle branch. If the maximum Josephson current I_c is defined at the transition, its field dependence is in quantitative agreement with the recent measurements on the Josephson plasma frequency ω_p. This leads to the conclusion that both I_c and ω_p equivalently give the information for the interlayer phase coherence. In spite of the finite Josephson current, there appears Lorentz-force-independent dissipation at small currents, indicating that the interlayer critical current is zero in the liquid phase. We discuss the applicability of the phase-slip mechanism associated with the in-plane motion of the vortex pancakes.

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Bi2Sr2CaCu2O8+δ本征结涡旋态层间临界电流

我们在平行于c轴的磁场中测量了Bi2Sr2CaCu2O8+δ本征约瑟夫森结的电流-电压(I-V)特性。在涡旋的液相中，I-V曲线呈现出三个阶段:低电流时的欧姆关系、快速电阻转变和准粒子分支。如果在跃迁处定义最大约瑟夫森电流Ic，则其场依赖性与最近对约瑟夫森等离子体频率ωp的测量结果在定量上一致。由此得出结论，Ic和ωp等效地给出了层间相位相干的信息。尽管Josephson电流有限，但在小电流下存在与洛伦兹力无关的耗散，表明液相层间临界电流为零。我们讨论了与涡旋薄煎饼平面内运动有关的相滑移机制的适用性。

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Applied Superconductivity

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