1999
DOI: 10.1103/physreve.60.935
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Theory and design of a free-electron maser with two-dimensional feedback driven by a sheet electron beam

Abstract: The use of two-dimensional Bragg resonators of planar geometry, realizing two-dimensional (2D) distributed feedback, is considered as a method of producing spatially coherent radiation from a large sheet electron beam. The spectrum of eigenmodes is found for a 2D Bragg resonator when the sides of the resonator are open and also when they are closed. The higher selectivity of the open resonator in comparison with the closed one is shown. A time-domain analysis of the excitation of an open 2D Bragg resonator by … Show more

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Cited by 71 publications
(37 citation statements)
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“…According to [3,4] the 2D Bragg resonator possesses high selectivity over both the longitudinal and the transverse indices. This selectivity originates from output of radiation not only in the longitudinal ±z directions (similar to 1D Bragg resonators), but additionally in the transverse ±x directions.…”
Section: Resultsmentioning
confidence: 99%
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“…According to [3,4] the 2D Bragg resonator possesses high selectivity over both the longitudinal and the transverse indices. This selectivity originates from output of radiation not only in the longitudinal ±z directions (similar to 1D Bragg resonators), but additionally in the transverse ±x directions.…”
Section: Resultsmentioning
confidence: 99%
“…In our paper we describe an effective method for the spatial synchronization of radiation in the case of large Fresnel parameter: b 2 /lλ 1 that is based on using 2D distributed feedback. In microwave electronics 2D distributed feedback was suggested in [3,4] to produce spatially coherent radiation from either sheet or annular high-current relativistic electron beam with the transverse size greatly exceeding the wavelength and can be realised in planar and coaxial 2D Bragg cavities with a double-periodical corrugation of the metallic walls. In this structure mutual scattering of the electromagnetic energy fluxes propagating in the forward, backward and transverse directions (relative to the direction of the electron beam propagation) takes place.…”
Section: Introductionmentioning
confidence: 99%
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“…Taking the matched boundary conditions at both ends of the reflector, one can solve the coupled equations for each mode by using finite differential method or the eigenvector method [9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27]. Here the reflectivity for the i-th mode is defined as the ratio of the backward-wave power of the i-th mode to the forward-wave power of the operating mode at input port of the reflector.…”
mentioning
confidence: 99%
“…Approaches that can be suggested to achieve this goal include the generation of radiation by a single source with an oversized electrodynamic system. In this case special methods (for example, 2D distributed feedback [1,2]) are required to produce spatially coherent radiation. Another method is the synchronization of a large number of moderate-power sources using a master oscillator [3][4][5].…”
mentioning
confidence: 99%