Electromagnetics of superconductors

Digest on Antennas and Propagation Society International Symposium Pub Date : 1989-06-26 DOI:10.1109/APS.1989.134911

K. Mei, G. Liang, T. Van Duzer

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引用次数: 62

Abstract

Summary form only given. It is pointed out that, electromagnetically speaking, a superconductor is distinguishable from a fictitious perfect conductor. A superconducting material is more conveniently treated as a dielectric material with a negative real part of the dielectric constant as far as electromagnetics is concerned. When superconductors are considered as a generalized dielectric material, some superconductive electromagnetic problems are simplified, since the dielectric parameter is an integral part of electromagnetic computation. No technical difficulty is presented to existing computer programs if a dielectric constant passes from a positive value to a negative one. Also presented is a time-domain computational method involving dispersive media, such as superconductors or plasma. It involves a time-domain finite difference approach with system function expansion, so that no explicit convolution is required. It thus greatly reduces memory demand and CPU time. As a consequence of this electromagnetic treatment of a superconductor, the existence of a surface wave on a superconducting surface is also predicted.<>

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超导体电磁学

只提供摘要形式。本文指出，从电磁学角度讲，超导体与虚构的完美导体是有区别的。就电磁学而言，超导材料更方便地被视为介电常数实部为负的介电材料。将超导体作为一种广义的介电材料来考虑，可以简化一些超导电磁问题，因为介电参数是电磁计算中不可分割的一部分。如果介电常数从正值变为负值，对现有的计算机程序没有技术上的困难。本文还提出了一种涉及色散介质(如超导体或等离子体)的时域计算方法。它涉及时域有限差分方法与系统函数展开，因此不需要显式的卷积。因此，它大大减少了内存需求和CPU时间。作为对超导体进行电磁处理的结果，还预测了超导表面上表面波的存在。

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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Digest on Antennas and Propagation Society International Symposium

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