Unsteady-state nonlinear processes accompanying the interaction of an electron beam with an electromagnetic field near the boundary of a transmission band. I. The high-frequency boundary
We present the results of numerical modeling of the transient processes accompanying the interaction of an electron beam with the field of an electrodynamic system near the high-frequency boundary of a transmission band. Depending on its parameters, the system can behave like a reflected-wave tube,...
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Veröffentlicht in: | Radiophys. Quantum Electron. (Engl. Transl.); (United States) 1988-02, Vol.31 (2), p.155-166 |
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container_title | Radiophys. Quantum Electron. (Engl. Transl.); (United States) |
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creator | Bulgakova, L. V. Kuznetsov, S. P. |
description | We present the results of numerical modeling of the transient processes accompanying the interaction of an electron beam with the field of an electrodynamic system near the high-frequency boundary of a transmission band. Depending on its parameters, the system can behave like a reflected-wave tube, a traveling-wave tube, or a resonant oscillator, or else it can combine the properties of these. The parameter ranges corresponding to the regimes of steady-state generation, self-modulation, hard excitation, and hysteresis are indicated. A qualitative explanation is given of the observed phenomena, the nature of which depends to a considerable degree on the deceleration of the electron beam imparting kinetic energy to the field. |
doi_str_mv | 10.1007/BF01039179 |
format | Article |
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(USSR)</creatorcontrib><title>Unsteady-state nonlinear processes accompanying the interaction of an electron beam with an electromagnetic field near the boundary of a transmission band. I. The high-frequency boundary</title><title>Radiophys. Quantum Electron. (Engl. Transl.); (United States)</title><description>We present the results of numerical modeling of the transient processes accompanying the interaction of an electron beam with the field of an electrodynamic system near the high-frequency boundary of a transmission band. Depending on its parameters, the system can behave like a reflected-wave tube, a traveling-wave tube, or a resonant oscillator, or else it can combine the properties of these. The parameter ranges corresponding to the regimes of steady-state generation, self-modulation, hard excitation, and hysteresis are indicated. A qualitative explanation is given of the observed phenomena, the nature of which depends to a considerable degree on the deceleration of the electron beam imparting kinetic energy to the field.</description><subject>640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions</subject><subject>ABSORPTION</subject><subject>ACCELERATION</subject><subject>BACKWARD WAVE TUBES</subject><subject>BEAM TRANSPORT</subject><subject>BEAMS</subject><subject>BOUNDARY CONDITIONS</subject><subject>CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS</subject><subject>ELECTRICAL PUMPING</subject><subject>ELECTRODYNAMICS</subject><subject>ELECTROMAGNETIC FIELDS</subject><subject>ELECTRON BEAM PUMPING</subject><subject>ELECTRON BEAMS</subject><subject>ELECTRON TUBES</subject><subject>ELECTRONIC EQUIPMENT</subject><subject>ENERGY ABSORPTION</subject><subject>ENERGY TRANSFER</subject><subject>FINITE DIFFERENCE METHOD</subject><subject>FREQUENCY MODULATION</subject><subject>FREQUENCY RANGE</subject><subject>HYSTERESIS</subject><subject>INTERACTIONS</subject><subject>ITERATIVE METHODS</subject><subject>LEPTON BEAMS</subject><subject>MATHEMATICAL MODELS</subject><subject>MICROWAVE EQUIPMENT</subject><subject>MICROWAVE TUBES</subject><subject>MODULATION</subject><subject>NONLINEAR PROBLEMS</subject><subject>NUMERICAL SOLUTION</subject><subject>OSCILLATORS</subject><subject>PARTICLE BEAMS</subject><subject>PUMPING</subject><subject>TRANSIENTS</subject><subject>TRAVELLING WAVE TUBES</subject><subject>WAVE PROPAGATION</subject><subject>WAVEGUIDES</subject><issn>0033-8443</issn><issn>1573-9120</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1988</creationdate><recordtype>article</recordtype><recordid>eNpNkcFqGzEQhkVJoI6TS55A5FhYV1rtWtpjE5rWEOjFPS-zo5FXwSu5kkLxq_XpsnZC29MwwzcfM_yM3UqxkkLoz_ePQgrVSd19YAvZalV1shYXbCGEUpVpGvWRXeX8LGZMNGbB_vwMuRDYY5ULFOIhhr0PBIkfUkTKmTIHxDgdIBx92PEyEvehUAIsPgYeHYfAaU9Y0twOBBP_7cv433SCXaDikTtPe8vP9pNmiC_BQjqeHbwkCHnyOZ-sAwS74psV387c6Hdj5RL9eqGAx79r1-zSwT7TzXtdsu3j1-3D9-rpx7fNw5enCqVWpap145Sl2sDaUquUdmhQ1w1qIESnhdGuWQ-1ao1d624YWmtAtmRAWVwPasnu3rQxF99n9IVwxBjC_Fvfmk52tZqhT28QpphzItcfkp_mI3sp-lMy_b9k1Cuh34Vp</recordid><startdate>198802</startdate><enddate>198802</enddate><creator>Bulgakova, L. 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P.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c173t-274f3de28a6de5337fc8c724c7aeccf7087f46b2358d679bb5d8a15e8a3dc6b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1988</creationdate><topic>640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions</topic><topic>ABSORPTION</topic><topic>ACCELERATION</topic><topic>BACKWARD WAVE TUBES</topic><topic>BEAM TRANSPORT</topic><topic>BEAMS</topic><topic>BOUNDARY CONDITIONS</topic><topic>CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS</topic><topic>ELECTRICAL PUMPING</topic><topic>ELECTRODYNAMICS</topic><topic>ELECTROMAGNETIC FIELDS</topic><topic>ELECTRON BEAM PUMPING</topic><topic>ELECTRON BEAMS</topic><topic>ELECTRON TUBES</topic><topic>ELECTRONIC EQUIPMENT</topic><topic>ENERGY ABSORPTION</topic><topic>ENERGY TRANSFER</topic><topic>FINITE DIFFERENCE METHOD</topic><topic>FREQUENCY MODULATION</topic><topic>FREQUENCY RANGE</topic><topic>HYSTERESIS</topic><topic>INTERACTIONS</topic><topic>ITERATIVE METHODS</topic><topic>LEPTON BEAMS</topic><topic>MATHEMATICAL MODELS</topic><topic>MICROWAVE EQUIPMENT</topic><topic>MICROWAVE TUBES</topic><topic>MODULATION</topic><topic>NONLINEAR PROBLEMS</topic><topic>NUMERICAL SOLUTION</topic><topic>OSCILLATORS</topic><topic>PARTICLE BEAMS</topic><topic>PUMPING</topic><topic>TRANSIENTS</topic><topic>TRAVELLING WAVE TUBES</topic><topic>WAVE PROPAGATION</topic><topic>WAVEGUIDES</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Bulgakova, L. V.</creatorcontrib><creatorcontrib>Kuznetsov, S. P.</creatorcontrib><creatorcontrib>Saratov State Univ. (USSR)</creatorcontrib><collection>CrossRef</collection><collection>OSTI.GOV</collection><jtitle>Radiophys. Quantum Electron. (Engl. Transl.); (United States)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Bulgakova, L. V.</au><au>Kuznetsov, S. P.</au><aucorp>Saratov State Univ. (USSR)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Unsteady-state nonlinear processes accompanying the interaction of an electron beam with an electromagnetic field near the boundary of a transmission band. I. The high-frequency boundary</atitle><jtitle>Radiophys. Quantum Electron. (Engl. Transl.); (United States)</jtitle><date>1988-02</date><risdate>1988</risdate><volume>31</volume><issue>2</issue><spage>155</spage><epage>166</epage><pages>155-166</pages><issn>0033-8443</issn><eissn>1573-9120</eissn><abstract>We present the results of numerical modeling of the transient processes accompanying the interaction of an electron beam with the field of an electrodynamic system near the high-frequency boundary of a transmission band. Depending on its parameters, the system can behave like a reflected-wave tube, a traveling-wave tube, or a resonant oscillator, or else it can combine the properties of these. The parameter ranges corresponding to the regimes of steady-state generation, self-modulation, hard excitation, and hysteresis are indicated. A qualitative explanation is given of the observed phenomena, the nature of which depends to a considerable degree on the deceleration of the electron beam imparting kinetic energy to the field.</abstract><cop>United States</cop><doi>10.1007/BF01039179</doi><tpages>12</tpages></addata></record> |
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subjects | 640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions ABSORPTION ACCELERATION BACKWARD WAVE TUBES BEAM TRANSPORT BEAMS BOUNDARY CONDITIONS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ELECTRICAL PUMPING ELECTRODYNAMICS ELECTROMAGNETIC FIELDS ELECTRON BEAM PUMPING ELECTRON BEAMS ELECTRON TUBES ELECTRONIC EQUIPMENT ENERGY ABSORPTION ENERGY TRANSFER FINITE DIFFERENCE METHOD FREQUENCY MODULATION FREQUENCY RANGE HYSTERESIS INTERACTIONS ITERATIVE METHODS LEPTON BEAMS MATHEMATICAL MODELS MICROWAVE EQUIPMENT MICROWAVE TUBES MODULATION NONLINEAR PROBLEMS NUMERICAL SOLUTION OSCILLATORS PARTICLE BEAMS PUMPING TRANSIENTS TRAVELLING WAVE TUBES WAVE PROPAGATION WAVEGUIDES |
title | Unsteady-state nonlinear processes accompanying the interaction of an electron beam with an electromagnetic field near the boundary of a transmission band. I. The high-frequency boundary |
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