140ghz共聚焦波导陀螺放大器的研究进展

A. Soane, E. Nanni, M. Shapiro, R. Temkin, Hae-Gun Kim
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引用次数: 5

摘要

我们报告了麻省理工学院正在开发的用于增强核磁共振动态核极化(DNP-NMR)的140 GHz脉冲陀螺仪放大器系统的进展。研究了一种共焦几何结构,作为一种超模相互作用波导的方法。新的放大器不同于以前的版本,包括改进结构结构,优化输入耦合和服务器设计1。共焦几何结构由两个弯曲镜组成,它们的间距等于它们的曲率半径(R = L = 6.8 mm,宽度= 5 mm)。高阶HE06模式支持140ghz工作频率。为了抑制低阶模式,共聚焦几何形状具有开放的侧面,以允许辐射从受限结构中泄漏出来。通过适当的共焦参数设计,这些低阶模式应该比工作模式有更大的单位长度损耗。两个伺服器(长度2.51cm,最小宽度0.74 mm)通过在波导内提供高衰减来帮助防止振荡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Progress of 140 GHz gyro-amplifier using confocal waveguide
We report on the progress of a 140 GHz pulsed gyro-amplifier system being developed at MIT for enhanced Dynamic Nuclear Polarization for NMR (DNP-NMR). A confocal geometry configuration is being studied as an approach to an overmoded interaction waveguide. The new amplifier differs from a previous version by incorporating improvements to structural construction, optimized input coupling, and sever design1. The confocal geometry consists of two curved mirrors spaced equal to their radii of curvature (R = L = 6.8 mm, width = 5 mm). The operating frequency of 140 GHz is supported by the higher-order HE06 mode. In order to suppress lower-order modes, the confocal geometry has open sides to allow radiation to leak out of the confined structure. By an appropriate design of the confocal parameters, these lower-order modes should have a greater loss per unit length than the mode of operation. The two severs (length 2.51cm, minimum width 0.74 mm) help to prevent oscillations by providing high attenuation within the waveguide.
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