Convolution with Magnetostatic Waves in YIG Films

IEEE Transactions on Sonics and Ultrasonics Pub Date : 1985-09-01 DOI:10.1109/T-SU.1985.31653

J. Parekh, Hang-Sheng Tuan, K. Chang

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引用次数: 8

Abstract

A recently reported theory is reviewed for the convolution of contra-propagating magnetostatic forward-volume waves (MSFVW) in an epitaxial yttrium iron garnet (YIG) film, which are in the form of continuous-wave signals or time-limited continuous-wave pulses. Initial experimental results on the convolution of contra-propagating MSFVW’s as well as of contra-propagating magnetostatic backward-volume waves (MSBVW) are reported. Computations of the MSFVW internal convolver hilinearity factor Fin, indicate an efficient convolution process over a wide bandwidth. The experimentally determined values of MSFVW Fint are in excellent agreement with theory. The present results will interest microwave system developers in electronic warfare and other areas, particularly if bandwidths of 1 GHz or larger can be realized in practice, even though magnetostatic-wave (MSW) delay lines, in comparison to SAW delay lines, are severely limited in terms of the maximum delay time that is realizable without excessive insertion loss, which is on the order of 0.5 CS. The reason for the interest in MSW convolvers (as, indeed, for the entire MSW technology) lies, of course, in the ability that is afforded for performing signal processing directly at microwave frequencies.

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YIG薄膜中静磁波的卷积

本文综述了最近报道的一种以连续波信号或限时连续波脉冲形式在外延钇铁石榴石(YIG)薄膜中的反传播静磁前体积波(MSFVW)卷积的理论。本文报道了反传播静磁后体积波和反传播静磁后体积波卷积的初步实验结果。计算的MSFVW内部卷积器的线性系数Fin，表明一个有效的卷积过程在宽的带宽。实验测定的MSFVW Fint值与理论值非常吻合。目前的结果将使电子战和其他领域的微波系统开发人员感兴趣，特别是如果在实践中可以实现1 GHz或更大的带宽，即使静磁波(MSW)延迟线与SAW延迟线相比，在没有过度插入损耗的情况下可实现的最大延迟时间方面受到严重限制，这是在0.5 CS的数量级上。当然，对城市固体废物卷积器感兴趣的原因(实际上，对于整个城市固体废物技术)在于能够直接在微波频率下执行信号处理。

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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IEEE Transactions on Sonics and Ultrasonics

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