Generation of Subterahertz Superradiance Pulses Based on Excitation of a Surface Wave by Relativistic Electron Bunches Moving in Oversized Corrugated Waveguides

Ginzburg, N. S.; Malkin, A. M.; Sergeev, A. S.; Zheleznov, I. V.; Zotova, I. V.; Zaslavsky, V. Yu.; Boltachev, G. Sh.; Sharypov, K. A.; Shunaĭlov, S. A.; Ul’masculov, M. R.; Yalandin, M. I.

doi:10.1103/physrevlett.117.204801

Cited by 51 publications

(27 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Cherenkov SR of electron bunch exciting the surface wave in an oversized 1D corrugated cylindrical waveguide ( Fig. 1a) can be considered within quasioptical approach [1]. In this case the radiation field near a shallow corrugation is presented as a sum of two counter-propagating TM polarized wave-beams:…”

Section: Generation Of Sub-thz Sr Pulses Based On Excitation Of Surfamentioning

confidence: 99%

“…Advancement of vacuum electronic devices into sub-THz and THz frequency ranges calls for oversized beam-wave interaction space due to the fact that that the dimensions of the beam guiding systems can not be reduced lower than the millimeter scale. Thus, in order to provide coherent THz radiation from the spatially extended beams, excitation of surface modes existing in 1D and 2D corrugated systems appears to be attractive [1,2,5,6].…”

mentioning

confidence: 99%

See 1 more Smart Citation

Generation of Sub-Terahertz Surface Waves by Relativistic Electron Beams: Quasioptical Theory, Simulations and Experiments

et al. 2018

View full text Add to dashboard Cite

Section: Generation Of Sub-thz Sr Pulses Based On Excitation Of Surfamentioning

confidence: 99%

mentioning

confidence: 99%

Generation of Sub-Terahertz Surface Waves by Relativistic Electron Beams: Quasioptical Theory, Simulations and Experiments

et al. 2018

View full text Add to dashboard Cite

“…Для достижения этой цели наряду с черенковским механизмом СИ, связанным с возбуждением поверхностных волн в сверхразмерных гофрированных волноводах [4], привлекательно использовать альтерна-тивные механизмы и прежде всего эффект циклотронного СИ. Такое излучение реализуется в регулярном волноводе, когда электроны, со-ставляющие сгусток, двигаются по винтовым траекториям в однородном магнитном поле.…”

Section: поступило в редакцию 18 мая 2017 гunclassified

Генерация Ультракоротких Импульсов Субтерагерцевого И Терагерцевого Диапазонов На Основе Эффекта Циклотронного Сверхизлучения

Розенталь¹,

Гинзбург²,

Зотова³

et al. 2017

Письма В Журнал Технической Физики

View full text Add to dashboard Cite

В рамках усредненного описания электронно-волнового взаимодействия, а также на основе прямого моделирования PIC (particle in cell) показана возможность генерации ультракоротких импульсов субтерагерцевого и терагерцевого диапазонов с использованием циклотронного механизма сверхизлучения (СИ) сгустков электронов, движущихся по винтовым траекториям в однородном магнитном поле. В условиях существенной сверхразмерности волноводного тракта селективное возбуждение рабочей моды обеспечивается при движении электронного сгустка с поступательной скоростью, близкой к групповой скорости излучаемого импульса СИ. DOI: 10.21883/PJTF.2017.18.45030.16878

show abstract

“…1a) can be considered within a quasi-optical approach [4]. In this case the radiation field near a shallow corrugation is presented as a sum of two counterpropagating TM polarized wave-beams:…”

Section: Generation Of Sub-thz Sr Pulses Based On Excitation Of Surfamentioning

confidence: 99%

Generation of single and periodically repeated powerful ultrashort microwave pulses

Zotova

2017

EPJ Web Conf.

View full text Add to dashboard Cite

Generation of powerful ultrashort microwave pulses (USP) is of interest for a large number of practical applications, including radars with high resolution, plasma diagnostics, spectroscopy etc. In order to achieve this purpose many methods well-known in laser physics can be implemented in microwave electronics.In the last decade significant progress was achieved in generation of microwave USPs based on classical superradiance (SR) of extended electron bunches. Using of this effect a new type of pulse sources has been developed, which are capable of producing uniquely short (under 0.2-1 ns) electromagnetic pulses at super-high peak powers exceeding 1 GW in the millimeter waves (Kaband) and 3 GW in the centimeter waves (X-band) with a repetition frequency up to several kilohertz [1]. A natural continuation of this research is related with the promotion of SR sources in shorter wavelengths ranges, where the oversized waveguides should be used. In the first part of this paper the results of the experimental observation of SR emission with excitation of a surface wave in the oversized periodically corrugated slow wave structures are presented. The experiments were based on a theoretical consideration in the frame of the quasi-optical approach.A periodic train of powerful ultrashort microwave pulses with a repetition frequency of 10-100 MHz can be generated in electron oscillators with a saturable absorber installed in the feedback loop [2]. The mechanism of pulse formation in this case is similar to the passive mode-locking [3] in laser physics where such pulses are also treated as dissipative solitons. The second part of this paper is devoted to the theoretical analysis of solitons generation in a mode-locked two-section microwave oscillator consisting of Cherenkov TWT and a Kompfner absorber in the feedback loop. Generation of Sub-THz SR Pulses Based on Excitation of Surface Waves in Oversized WaveguidesCherenkov SR of electron bunch exciting the surface wave in an oversized corrugated cylindrical waveguide (Fig. 1a) can be considered within a quasi-optical approach [4]. In this case the radiation field near a shallow corrugation is presented as a sum of two counterpropagating TM polarized wave-beams: , (1) propagation and mutual coupling of which is described by two non-uniform parabolic equations. The synchronous interaction of electrons with a forward partial waves leads to development a self-bunching and formation of powerful SR pulse.Simulations show that the most optimal conditions for SR emission correspond to excitation of the backward surface wave near the Bragg frequency ( S -regime, Fig.1b). For parameters of an electron bunch formed by an accelerator RADAN (electron energy of 300 keV, a total current of 2 kA, a bunch duration of 500 ps) and a corrugated waveguide with the mean radius of 3.75 mm, corrugation period of 0.825 mm, and corrugation depth of 0.36 mm the operating frequency in the resonant point is of 0.14 THz ( 0 2 3.5 r O | ). In this case the power of generated SR pulse emitted in z directi...

show abstract

Generation of Subterahertz Superradiance Pulses Based on Excitation of a Surface Wave by Relativistic Electron Bunches Moving in Oversized Corrugated Waveguides

Cited by 51 publications

References 19 publications

Generation of Sub-Terahertz Surface Waves by Relativistic Electron Beams: Quasioptical Theory, Simulations and Experiments

Generation of Sub-Terahertz Surface Waves by Relativistic Electron Beams: Quasioptical Theory, Simulations and Experiments

Генерация Ультракоротких Импульсов Субтерагерцевого И Терагерцевого Диапазонов На Основе Эффекта Циклотронного Сверхизлучения

Generation of single and periodically repeated powerful ultrashort microwave pulses

Contact Info

Product

Resources

About