Title :
Recent results in the hard-tube MILO experiment
Author :
Haworth, Michael ; Hendrick, K. ; Englert, T. ; Shiffler, Donald ; Hackett, K. ; Lemke, R. ; Sena, M. ; Allen, Keri ; Ralph, Dale ; Henley, D.
Author_Institution :
WSQ Div., Phillips Lab., Kirtland AFB, NM, USA
Abstract :
Summary form only given, as follows. The hard-tube MILO (magnetically insulated transmission line oscillator) is an all stainless steel, brazed version of the gigawatt-class, L-band tube reported by Calico et al. (1995). The Calico MILO generated a 1.5-GW, 60-ns FWHM microwave pulse using a 500-kV, 60-kA, 500-ns electron beam, while the hard-tube MILO generates a 1.8-GW, 170-ns FWHM microwave pulse using a 500-kV, 60-kA, 300-ns electron beam. We show that this improved performance is due to suppression of unwanted electron emission from the cathode in the region of the first two tube cavities. We also report on experiments to identify the breakdown mechanism in the vacuum radome for the Vlasov antenna which is used as a high-power microwave load for both MILO experiments. Finally, experimental results are presented for an optimized version of the hard-tube MILO that computer simulations have shown should generate over 3.0 GW.
Keywords :
insulation; microwave oscillators; microwave tubes; simulation; transmission lines; 1.5 GW; 1.8 GW; 3.0 GW; 500 kV; 60 kA; Vlasov antenna; all stainless steel; computer simulations; electron beam; gigawatt-class L-band tube; hard-tube MILO experiment; high-power microwave load; magnetically insulated transmission line oscillator; microwave pulse; unwanted electron emission; vacuum radome; Electron beams; Electron emission; Insulation; L-band; Microwave generation; Microwave oscillators; Pulse generation; Steel; Transmission lines; Vacuum breakdown;
Conference_Titel :
Plasma Science, 1997. IEEE Conference Record - Abstracts., 1997 IEEE International Conference on
Conference_Location :
San Diego, CA, USA
Print_ISBN :
0-7803-3990-8
DOI :
10.1109/PLASMA.1997.604783
