Low-noise operation and magnetic-priming of magnetrons by azimuthally-varying axial magnetic fields

机译：方位角变化的轴向磁场低噪声操作和磁控磁控射击

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A recent breakthrough at the University of Michigan has demonstrated that application of an azimuthally-varying axial magnetic field to a magnetron causes a dramatic reduction (-30 dB) in the microwave noise near the carrier and elimination of the sidebands (spurs). Another advantage of azimuthally-varying axial magnetic fields is "magnetic priming" in which the magnetron pi-mode oscillation-startup is hastened, especially when N/2 periods of magnetic perturbation are applied to an N-cavity magnetron. These experiments have been performed on kW microwave oven magnetrons. Computational simulations have also been performed in both 2-D and 3-D that verify the effects on rapid startup and noise observed experimentally.

机译：密歇根大学的最近突破已经证明，将方位形变化的轴向磁场施加到磁控管在载体附近的微波噪声中引起剧烈的减少（-30dB）并消除边带（马刺）。方位角 - 变化的轴向磁场的另一个优点是“磁性灌注”，其中磁控管Pi模式振荡启动启动，特别是当磁扰动的N / 2周期施加到N腔磁控管时。已经在KW微波炉磁控管上进行了这些实验。在二进制和3-D中也进行了计算模拟，验证了实验观察到快速启动和噪声的效果。

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《Joint International Conference on Infrared and Millimeter Waves》|2004年||共2页
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Gilgenbach R.M.; Neculaes V.B.; Jones M.C.; Lau Y.Y.; White W.; Luginsland J.W.; Jordan N.; Pengvanich P.; Hidaka Y.; Hoff B.W.;
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中图分类自动化技术、计算机技术;
关键词
magnetrons; magnetic noise; electron device noise; low noise operation; magnetic priming; azimuthally varying axial magnetic fields; microwave noise; magnetic perturbation; N-cavity magnetron; computational simulations; magnetron pi-mode oscillation;

机译：磁控磁通;磁噪声;电子器件噪声;低噪声操作;磁性灌注;方位角变化的轴向磁场;微波噪声;磁性扰动;N腔磁控管;计算模拟;磁控型PI模式振荡;

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专利

1. Simulation of rapid startup in microwave magnetrons with azimuthally varying axial magnetic fields [J] . M. C. Jones, V. B. Neculaes, W. White, Applied Physics Letters . 2004,第6期

机译：具有轴向变化的轴向磁场的微波磁控管快速启动的仿真
2. Axial Magnetic Fields at the Ends of a Synchronous Generator at Different Points of Operation [J] . Marcusson Birger, Lundin Urban Magnetics, IEEE Transactions on . 2015,第2期

机译：同步发电机两端不同工作点处的轴向磁场
3. Modified magnetic field distribution in relativistic magnetron with diffraction output for compact operation [J] . Li W., Liu Y.-G. Physics of plasmas . 2011,第2期

机译：相对论磁控管的修正磁场分布，具有衍射输出，可紧凑运行
4. Low-noise operation and magnetic-priming of magnetrons by azimuthally-varying axial magnetic fields [C] . Gilgenbach R.M., Neculaes V.B., Jones M.C., Infrared and Millimeter Waves, 2004 and 12th International Conference on Terahertz Electronics, 2004. Conference Digest of the 2004 Joint 29th International Conference on . 2004

机译：磁控管的轴向磁场方位角变化可实现低噪声运行和磁启动
5. Developing a Low-Noise Data Acquisition System for Detection of Electric and Magnetic Fields in Seawater [D] . Oare, Richard Allen. 2016

机译：开发用于检测海水中电场和磁场的低噪声数据采集系统
6. A Quantitative Determination of Magnetic Nanoparticle SeparationUsing On-Off Field Operation of Quadrupole Magnetic Field-Flow Fractionation(QMgFFF) [O] . Toru Orita, Lee R. Moore, Powrnima Joshi, -1

机译：磁性纳米粒子分离的定量测定使用四极磁场流分馏的开关现场操作（QMGFFF）
7. Simulation of rapid startup in microwave magnetrons with azimuthally varying axial magnetic fields [O] . M. C. Jones, V. B. Neculaes, W. White, 2004

机译：微波磁控中快速启动的仿真，方位角变化轴向磁场

Low-noise operation and magnetic-priming of magnetrons by azimuthally-varying axial magnetic fields

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