Development of High-Power Millimeter-Wave Surface-Wave Generators Based on Relativistic Ribbon Electron Beams
We analyze theoretically millimeter-wave surface-wave generators based on relativistic ribbon electron beams within the framework of the averaged quasioptical model, as well as using direct numerical modeling by the Particle-in-Cell method. The regime of excitation of π modes and the regime of the b...
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| Veröffentlicht in: | Radiophysics and quantum electronics 2020-10, Vol.63 (5-6), p.458-468 |
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| creator | Malkin, A. M. Zaslavsky, V.Yu Zheleznov, I.V. Goykhman, M. B. Gromov, A. V. Palitsin, A. V. Sergeev, A. S. Fedotov, A. É. Makhalov, P. B. Ginzburg, N. S. |
| description | We analyze theoretically millimeter-wave surface-wave generators based on relativistic ribbon electron beams within the framework of the averaged quasioptical model, as well as using direct numerical modeling by the Particle-in-Cell method. The regime of excitation of π modes and the regime of the backward-wave oscillator based on a surface wave are studied. The possibility to achieve generation of pulsed radiation at a frequency of 75 GHz with a power of up to 100 MW on the basis of the SINUKI acceleration (IAP RAS) is demonstrated. Experiments have been performed to test experimentally the formation of a relativistic ribbon electron beam with a particle energy of 600 keV, a current of up to 1 kA, and a width of up to 2 cm, which will be used to feed the developed generator. |
| doi_str_mv | 10.1007/s11141-021-10071-1 |
| format | Article |
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M. ; Zaslavsky, V.Yu ; Zheleznov, I.V. ; Goykhman, M. B. ; Gromov, A. V. ; Palitsin, A. V. ; Sergeev, A. S. ; Fedotov, A. É. ; Makhalov, P. B. ; Ginzburg, N. S.</creator><creatorcontrib>Malkin, A. M. ; Zaslavsky, V.Yu ; Zheleznov, I.V. ; Goykhman, M. B. ; Gromov, A. V. ; Palitsin, A. V. ; Sergeev, A. S. ; Fedotov, A. É. ; Makhalov, P. B. ; Ginzburg, N. S.</creatorcontrib><description>We analyze theoretically millimeter-wave surface-wave generators based on relativistic ribbon electron beams within the framework of the averaged quasioptical model, as well as using direct numerical modeling by the Particle-in-Cell method. The regime of excitation of π modes and the regime of the backward-wave oscillator based on a surface wave are studied. The possibility to achieve generation of pulsed radiation at a frequency of 75 GHz with a power of up to 100 MW on the basis of the SINUKI acceleration (IAP RAS) is demonstrated. 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The regime of excitation of π modes and the regime of the backward-wave oscillator based on a surface wave are studied. The possibility to achieve generation of pulsed radiation at a frequency of 75 GHz with a power of up to 100 MW on the basis of the SINUKI acceleration (IAP RAS) is demonstrated. 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| subjects | Analysis Astronomy Astrophysics and Astroparticles Electron beams Electrons Generators Hadrons Heavy Ions Lasers Mathematical and Computational Physics Millimeter waves Nuclear Physics Observations and Techniques Optical Devices Optics Particle energy Particle in cell technique Photonics Physics Physics and Astronomy Pulsed radiation Quantum Optics Relativistic effects Surface waves Theoretical |
| title | Development of High-Power Millimeter-Wave Surface-Wave Generators Based on Relativistic Ribbon Electron Beams |
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