Movshevich, B.Z.
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500 keV, 200 A MICROSECOND ELECTRON ACCELERATOR WITH A REPETITION RATE OF 10 Hz |
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N.I. Zaitsevª¹, S.A. Zapevalov¹, E.V. Ilyakov¹, S.Yu. Kornishin¹, S.V. Kofanov¹, M.Yu. Kryltsov¹, I.S. Kulagin¹, V.K. Lygin¹, A.V. Malygin¹, V.N. Manuilov¹, B.Z. Movshevich¹, V.G. Perminov¹, M.I. Petelin¹, A.Sh. Fiks¹, A.S. Shevchenko¹, V.I. Tsalolikhin¹, V.V. Kladukhin², A. Krasnykh³ ¹Institute of Applied Physics of Russian Academy of Sciences, Nizhny Novgorod, Russia ²Institute of Electrophysics Urals Division of Russian Academy of Sciences, Ekaterinburg, Russia ³Stanford Linear Accelerator Center, Stanford, USA Abstract The described experimental stand was designed to study high-power pulse gyrotrons and gyroklystrons. The stand is based on a pulse-periodic microsecond electron accelerator with a repetition rate of up to 10 Hz, which generates a helical electron beam (HEB) with electron energy up to 500 keV and current of 200 A. ª – corresponding author |
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FORMERS OF HIGH VOLTAGE RECTANGULAR IMPULSES FOR POWERFUL MICROWAVE DEVICES |
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B.Z. Movshevichª Institute of Applied Physics of Russian Academy of Sciences, Nizhny Novgorod, Russia Abstract The simple devices forming high-voltage rectangular pulses with weakly irregular tops, which are based on discharging capacitive energy storage to an active load via a corrective reactive LC-circuit with a built-in damping resistor, are considered. High-voltage pulse generators for high-power microwave devices, which were created at IAP and are operated in the range from single nanoseconds to 100 microseconds with amplitudes up to hundreds of kilovolts, are briefly reviewed. ª – corresponding author |
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