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Millimeter-gap magnetically insulated transmission line power flow experiments

机译：毫米间隙磁绝缘传输线电流实验

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An experiment platform has been designed to study vacuum power flow in magnetically insulated transmission lines (MITLs). The platform is driven by the Mykonos-V LTD accelerator to drive a coaxial MITL with a millimeter-scale anode-cathode gap. The experiments conducted quantify the current loss in the MITL with respect to vacuum pumpdown time and vacuum pressure. MITL gaps between 1.0 mm and 1.3 mm were tested. The experiment results revealed large differences in performance for the 1.0 and 1.3 mm gaps. The 1.0 mm gap resulted in current losses of 40%-60% of the peak current. The 1.3 mm gap resulted in current losses of less than 5% of peak current. Classical MITL models that neglect plasma expansion predict that there should be zero current loss, after magnetic insulation is established, for both of these gaps.

机译：实验平台设计用于研究磁绝缘传输线（MITLS）的真空电流。该平台由Mykonos-V Ltd加速器驱动，以驱动具有毫米级阳极 - 阴极间隙的同轴磁线。在真空向下时间和真空压力方面进行了对MIT1中的电流损失进行量化。测试了1.0 mm和1.3 mm之间的mitl间隙。实验结果显示出1.0和1.3毫米间隙的性能差异很大。 1.0毫米的间隙导致电流损耗为峰值电流的40％-60％。 1.3毫米间隙导致电流损耗小于峰值电流的5％。忽略等离子体扩展的古典MITL模型预测，在建立磁绝缘后应该具有零电流损耗，对于这两个间隙建立磁绝缘。

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《IEEE Pulsed Power Conference》|2015年||共5页
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Hutsel B.T.; Stoltzfus B.S.; Breden E.W.; Fowler W.E.; Jones P.A.; Justus D.W.; Long F.W.; Lucero D.J.; MacRunnels K.A.; Mazarakis M.G.; Mckenney J.L.; Moore J.K.; Mulville T.D.; Porter J.L.; Savage M.E.; Stygar W.A.;
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中图分类脉冲技术、脉冲电路;
关键词
driver circuits; electrodes; load flow; power transformer insulation; power transmission lines; Mykonos-V LTD accelerator; millimeter-gap magnetically insulated transmission line power flow; millimeter-scale anode-cathode gap; vacuum power flow; zero current loss; Cavity resonators; Current measurement; Hardware; Load flow; Magnetosphere; Power transmission lines; Transmission line measurements;

机译：驱动器电路;电极;负载流量;电力变压器绝缘;电力传输线;Mykonos-V Ltd加速器;毫米间隙磁绝缘传输线电流;毫米级阳极 - 阴极间隙;真空电流;零电流损失;腔谐振器;腔谐振器;腔谐振器;腔谐振器;腔谐振器;腔谐振器;腔谐振器;腔谐振器;腔谐振器;电流测量;硬件;负载流动;磁影;输电线路;传输线测量;

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1. Power Flow in a Magnetically Insulated Recyclable Transmission Line for a Z-Pinch-Driven Inertial-Confinement-Fusion Energy System [J] . Schumer J. W., Ottinger P. F., Olson C. L. IEEE Transactions on Plasma Science . 2006,第期

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2. Effects of Electron Flow Current Density on Flow Impedance of Magnetically Insulated Transmission Lines [J] . HE Yong, ZOU Wen-Kang, SONG Sheng-Yi 中国物理快报：英文版 . 2011,第008期

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3. Distribution of leakage currents in the cylindrical and conical sections of the magnetically insulated transmission line of the Angara-5-1 facility in experiments with wire arrays [J] . Grabovski E. V., Gribov A. N., Samokhin A. A., Plasma physics reports . 2016,第8期

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4. Millimeter-gap magnetically insulated transmission line power flow experiments [C] . Hutsel B.T., Stoltzfus B.S., Breden E.W., IEEE Pulsed Power Conference . 2015

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5. Structure Study of Magnetic Thin Films for Voltage Controlled Spintronics by Scanning Transmission Electron Microscopy Experiment and Density Functional Theory Calculations [D] . Sun, Congli. 2018

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7. Millimeter-gap magnetically insulated transmission line power flow experiments [O] . B. T. Hutsel, B. S. Stoltzfus, E. W. Breden, 2015

机译：毫米间隙磁绝缘传输线电流实验

Millimeter-gap magnetically insulated transmission line power flow experiments

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