High power microwave generation from a tunable radially extracted vircator

High power microwaves in the dominant TE10 mode emitted from the radially extracted vircator were studied experimentally at the diode voltages from 660 kV up to 1.2 MV and at diode currents from 37 up to 88 kA. The dominant microwave source is in the region of the virtual cathode. The return‐current rods on the virtual cathode side of the anode narrows the output microwave frequency. There are dominant frequencies observed in the experiments. For example, three dominant narrow‐band microwave pulses were observed at 8.63±0.05, 9.75±0.03, and 10.53±0.03 GHz. They are tunable and scaled linearly with the diode current at the inflection point. All the observed dominant frequencies are in good agreement with the scaling law f=(4.77/d)ln[γ0+(γ20−1)1/2] derived either from the two‐dimensional virtual‐cathode oscillation or from the one‐dimensional harmonic reflexing‐electron oscillation. This agreement also confirms that these two oscillations in our vircator generate nearly the same frequency. The maximum obser...

[1]  J. Benford,et al.  Interaction of a vircator microwave generator with an enclosing resonant cavity , 1987 .

[2]  Bartsch,et al.  Gigawatt-level microwave bursts from a new type of virtual cathode oscillator. , 1987, Physical review letters.

[3]  W. Woo Two‐dimensional features of virtual cathode and microwave emission , 1987 .

[4]  T. Lin,et al.  Computer simulation of virtual cathode oscillations , 1990 .

[5]  R. Miller,et al.  An Introduction to the Physics of Intense Charged Particle Beams , 1982 .

[6]  Kwan High-efficiency, magnetized, virtual-cathode microwave generator. , 1986, Physical review letters.

[7]  S. C. Burkhart,et al.  A virtual‐cathode reflex triode for high‐power microwave generation , 1985 .

[8]  Thomas J. T. Kwan,et al.  High‐power coherent microwave generation from oscillating virtual cathodes , 1984 .

[9]  J. Benford,et al.  Dynamics of a virtual cathode oscillator driven by a pinched diode , 1986 .

[10]  S. Burkhart Multigigawatt microwave generation by use of a virtual cathode oscillator driven by a 1―2 MV electron beam , 1987 .

[11]  M. W. Wu,et al.  Experimental study of beam emittance and brightness from a high-power field emission electron gun , 1990 .

[12]  Jeffry Golden,et al.  High-power microwaves from a non-isochronous reflecting electron system (NIRES) , 1977 .

[13]  J. Benford,et al.  A Radially and Axially Extracted Virtual-Cathode Oscillator (Vircator) , 1985, IEEE Transactions on Plasma Science.

[14]  Woo,et al.  Virtual-cathode oscillator emission by a pinched diode. , 1986, Physical review letters.

[15]  Bartsch,et al.  High-power microwave generation from a virtual cathode device. , 1985, Physical review letters.

[16]  T. Kwan,et al.  Formation of virtual cathodes and microwave generation in relativistic electron beams , 1984 .

[17]  D. Sullivan High Power Microwave Generation from a Virtual Cathode Oscillator (Vircator) , 1983, IEEE Transactions on Nuclear Science.

[18]  C. E. Fay,et al.  On the theory of space charge between parallel plane electrodes , 1938 .