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群延迟、储能与倏逝电磁波的隧穿

Group delay, stored energy, and the tunneling of evanescent electromagnetic waves.

作者信息

Winful Herbert G

机构信息

Department of Electrical Engineering and Computer Science, University of Michigan, 1301 Beal Avenue, Ann Arbor, Michigan 48109-2122, USA.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2003 Jul;68(1 Pt 2):016615. doi: 10.1103/PhysRevE.68.016615. Epub 2003 Jul 28.

DOI:10.1103/PhysRevE.68.016615
PMID:12935278
Abstract

A general relation between group delay and stored electric and magnetic energies is presented for two-port networks. It generalizes the results of Dicke to situations where electric and magnetic stored energies differ. The general result is applied to tunneling evanescent waves in cutoff waveguides. It is shown explicitly that the group delay is equal to the dwell time plus a self-interference delay which is proportional to the net reactive stored energy. The Hartman effect, the saturation of group delay with length in cutoff waveguides, is explained on the basis of saturation of stored energy with guide length. It is pointed out that the anomalously short delays observed in tunneling experiments are not propagation delays and should not be associated with superluminal velocities. A strictly luminal energy velocity is derived and a method is suggested for the measurement of dwell time and energy velocity.

摘要

给出了两端口网络群时延与存储电能和磁能之间的一般关系。它将迪克的结果推广到电能和磁能存储不同的情况。该一般结果应用于截止波导中的隧穿倏逝波。明确表明群时延等于驻留时间加上与净无功存储能量成比例的自干涉延迟。基于存储能量随波导长度的饱和现象,解释了哈特曼效应,即截止波导中群时延随长度的饱和现象。指出在隧穿实验中观察到的异常短延迟不是传播延迟,不应与超光速速度相关联。推导出了严格的光速能量速度,并提出了一种测量驻留时间和能量速度的方法。

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