Describing heat dissipation in the resistive state of three-dimensional superconductors

IF 1.3 3区物理与天体物理 Q4 PHYSICS, APPLIED

Physica C-superconductivity and Its Applications Pub Date : 2024-05-23 DOI:10.1016/j.physc.2024.1354531

Leonardo Rodrigues Cadorim, Lucas Veneziani de Toledo, Edson Sardella

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Abstract

In this work we study the role of the heat diffusion equation in simulating the resistive state of superconducting films. By analyzing the current–voltage and current-resistance characteristic curves for temperatures close to $T_{c}$ and various heat removal scenarios, we demonstrate that heat diffusion notably influences the behavior of the resistive state, specially near the transition to the normal state, where heat significantly changes the critical current and the calculated resistance. Furthermore, we show how the efficiency of the substrate has important effects in the dynamics of the system, particularly for lower temperatures. Finally, we investigate the hysteresis loops, the role of the film thickness and of the Ginzburg–Landau parameter, the findings reassuring the significance of accounting for heat diffusion in accurately modeling the resistive state of superconducting films and provide valuable insights into its complex dynamics. To accomplish these findings, we have used the $3 D$ generalized Ginzburg–Landau equation coupled with the heat diffusion equation.

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描述三维超导体电阻态的散热情况

在这项工作中，我们研究了热扩散方程在模拟超导薄膜电阻状态中的作用。通过分析温度接近 Tc 和各种散热情况下的电流-电压和电流-电阻特性曲线，我们证明了热扩散对电阻态行为的显著影响，特别是在向正常态过渡附近，热量会显著改变临界电流和计算电阻。此外，我们还展示了衬底的效率如何对系统动态产生重要影响，尤其是在较低温度下。最后，我们研究了滞后环、薄膜厚度的作用以及金兹堡-朗道参数，这些发现再次证明了考虑热扩散对准确模拟超导薄膜电阻状态的重要意义，并为了解其复杂动力学提供了宝贵的见解。为了实现这些发现，我们使用了与热扩散方程相结合的三维广义金兹堡-朗道方程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physica C-superconductivity and Its Applications 物理-物理：应用

CiteScore

2.70

自引率

11.80%

发文量

102

审稿时长

66 days

期刊介绍： Physica C (Superconductivity and its Applications) publishes peer-reviewed papers on novel developments in the field of superconductivity. Topics include discovery of new superconducting materials and elucidation of their mechanisms, physics of vortex matter, enhancement of critical properties of superconductors, identification of novel properties and processing methods that improve their performance and promote new routes to applications of superconductivity. The main goal of the journal is to publish: 1. Papers that substantially increase the understanding of the fundamental aspects and mechanisms of superconductivity and vortex matter through theoretical and experimental methods. 2. Papers that report on novel physical properties and processing of materials that substantially enhance their critical performance. 3. Papers that promote new or improved routes to applications of superconductivity and/or superconducting materials, and proof-of-concept novel proto-type superconducting devices. The editors of the journal will select papers that are well written and based on thorough research that provide truly novel insights.