论文信息 - Cathode and Anode Optimization in a Virtual Cathode Oscillator

Cathode and Anode Optimization in a Virtual Cathode Oscillator

We are fabricating and testing several different types of cathodes for the same vircator driven by a single shot Marx generator and pulse forming line (300 kV, 60 ns, 30 Omega). The cathodes types, each with an emitting area of ~32 cm2, include the original velvet with a new geometry, carbon fiber, pin-array, and an array of all metal cathodes. The metal cathodes are made from aluminum and oxygen free copper fashioned to similar geometries with either a chemical etch or a CNC machining process. The vircator is tested with all of these cathodes using both polarity configurations and evaluated for beam voltage, current density, microwave output, and single shot lifetime. In addition to the cathode testing, several stainless steel and tungsten anode meshes with varying transparencies (50% - 80%) are evaluated. The construction and testing of an anode fashioned from Tantalum (70% transparency) is also discussed. Electron beam uniformity of the metal cathodes is investigated with the emitted electron beam current-density distribution evaluated in both time and space. Optimization of output power using resonant effects is also examined.

[1] J. Mankowski,et al. Efficiency results from a coaxial vircator using a simple feedback technique , 2003, Digest of Technical Papers. PPC-2003. 14th IEEE International Pulsed Power Conference (IEEE Cat. No.03CH37472).

[2] H. Uhm,et al. Influence of anode-cathode gap distance on output characteristics of high-power microwave from coaxial virtual cathode oscillator , 2005, IEEE Transactions on Plasma Science.

[3] Andreas A. Neuber,et al. Design and optimization of a compact, repetitive, high-power microwave system , 2005 .

[4] S. Korovin,et al. Experimental studies of long-lifetime cold cathodes for high power microwave oscillators , 1999, Digest of Technical Papers. 12th IEEE International Pulsed Power Conference. (Cat. No.99CH36358).

[5] Ya. E. Krasik,et al. Emission properties of different cathodes at E⩽105 V/cm , 2001 .

[6] Inverse ion diode experiment , 1981 .

[7] T. Knowles,et al. Carbon velvet field-emission cathode , 2002 .

[8] M. Lopez,et al. Projection ablation lithography cathode for high-current, relativistic magnetron , 2004 .

[9] N. Rostoker,et al. One-dimensional model of relativistic electron beam propagation , 1971 .

[10] C. Olson,et al. The IFA-2 Collective Accelerator , 1981, IEEE Transactions on Nuclear Science.