Imaging of Explosive Emission Cathode and Anode Plasma in a Vacuum-Sealed Vircator High-Power Microwave Source at 250 A/cm<inline-formula> <tex-math notation='TeX'>(^{2}) </tex-math></inline-formula>

Parson J.M.; Mankowski J.J.; Dickens J.C.; Neuber A.A.

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Imaging of Explosive Emission Cathode and Anode Plasma in a Vacuum-Sealed Vircator High-Power Microwave Source at 250 A/cm (^{2})

机译：真空密封的Vircator高功率微波源中爆炸排放阴极和阳极等离子体的成像，成像强度为250 A / cm （^ {2}）

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Cold cathode operation under high current densities leads to explosive electron emission (EEE) that contributes to early A–K gap closure. Hence, inconsistent vacuum conditions and, if utilized in a high power microwave device, degradation of microwave output power are observed. The EEE centers are known to produce localized plasmas on the surface of the cathode that release and ionize the electrode material. Further, low melting point material in the anode is released due to electron bombardment accompanied by a significant surface temperature increase. Postmortem analysis has revealed particles up to 50 m in diameter embedded in the opposite electrode. High speed ICCD imaging during A–K gap operation enabled resolving the plasma’s spatial characteristics in time. Images of cathode and anode plasma during the operation of a virtual cathode oscillator at 250 A/cm under ultrahigh vacuum conditions are presented.

机译：在高电流密度下冷阴极运行会导致爆炸性电子发射（EEE），这有助于尽早关闭AK间隙。因此，观察到不一致的真空条件，并且如果在高功率微波设备中使用，则会观察到微波输出功率的降低。已知EEE中心会在阴极表面产生局部等离子体，从而释放并电离电极材料。此外，由于电子轰击伴随着明显的表面温度升高，阳极中的低熔点材料被释放。验尸分析表明，直径最大为50 m的颗粒嵌入了对面的电极中。在进行K间隙操作期间进行高速ICCD成像，可以及时解决等离子体的空间特征。呈现了在超高真空条件下虚拟阴极振荡器以250 A / cm的频率运行期间阴极和阳极等离子体的图像。

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来源
《Plasma Science, IEEE Transactions on》 |2014年第10期|2592-2593|共2页
作者
Parson J.M.; Mankowski J.J.; Dickens J.C.; Neuber A.A.;
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作者单位

Center for Pulsed Power and Power Electronics, Texas Tech University, Lubbock, TX, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Anodes; Cathodes; Copper; Microwave FET integrated circuits; Microwave imaging; Microwave oscillators; Plasmas; Electron beam; electron emission; high power microwave generation; plasma diagnostics; virtual-cathode-oscillator (Vircator);

机译：阳极;阴极;铜;微波FET集成电路;微波成像;微波振荡器;等离子;电子束;电子发射;高功率微波产生;等离子体诊断;虚拟阴极振荡器（Vircator）;

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Imaging of Explosive Emission Cathode and Anode Plasma in a Vacuum-Sealed Vircator High-Power Microwave Source at 250 A/cm (^{2})

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