A 650 GHz helical BWO

2008 IEEE International Vacuum Electronics Conference Pub Date : 2008-04-22 DOI:10.1109/IVELEC.2008.4556366

J. Dayton, C. Kory, G. Mearini, D. Malta, M. Lueck, C. Bower

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引用次数: 7

Abstract

The operational frequency of helical vacuum electron devices has always been limited by the ability of conventional technology to fabricate very small helices, and by the difficulty of passing a meaningful current through the center of such a small structure. Microfabrication technology now offers the possibility of creating helices smaller in outside diameter than a human hair. These helices are not fabricated by wrapping wire or tape around a mandrel, they are grown. We will use such small helices to create a new class of vacuum electron devices that will operate by passing an electron beam around the outside of the helix, rather than through the center. This technology not only offers the opportunity to make meaningful incursions into a previously unused portion of the electromagnetic spectrum, it offers the possibility to do so inexpensively and in large quantities. This paper will discuss the design rationale and fabrication plan to be employed for the first device of this new class, a 650 GHz helical backward wave oscillator (BWO). A companion paper will describe the computational simulation of the 650 GHz BWO.

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650 GHz螺旋BWO

螺旋真空电子器件的工作频率一直受到传统技术制造非常小的螺旋的能力的限制，也受到难以使有意义的电流通过这种小结构的中心的限制。微加工技术现在提供了制造外径比人类头发还小的螺旋的可能性。这些螺旋不是通过在芯轴上缠绕电线或胶带制成的，它们是生长的。我们将使用这样的小螺旋来创造一种新型的真空电子装置，它将通过使电子束绕过螺旋的外部而不是通过中心来运行。这项技术不仅提供了对以前未使用的电磁频谱进行有意义的入侵的机会，而且还提供了廉价和大量入侵的可能性。本文将讨论这类新器件的第一个器件——650 GHz螺旋反向波振荡器(BWO)的设计原理和制造计划。另一篇论文将描述650 GHz BWO的计算模拟。

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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2008 IEEE International Vacuum Electronics Conference

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