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MARC Lista (tabellare)
Introduction to the Physics of Gyrotrons / Gregory S. Nusinovich ; foreword by Victor Granatstein and Richard Temkin
Introduction to the Physics of Gyrotrons / Gregory S. Nusinovich ; foreword by Victor Granatstein and Richard Temkin
Autore Nusinovich G. S
Edizione [1st ed.]
Pubbl/distr/stampa Johns Hopkins University Press, 2004
Descrizione fisica 1 online resource (xvi, 335 p. :) : ill. ;
Disciplina 530.4/4
Soggetto topico Particle dynamics
Plasma radiation
Gyrotrons
ISBN 1-4214-2764-8
1-4214-2941-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Half Title -- Title -- Dedication -- Copyright -- Contents -- Foreword -- Preface -- PART I INTRODUCTION TO GVRODEVICES -- Chapter 1 Introduction -- 1.1. Relativistic Dependence of Electron Cyclotron Frequency on Electron Energy -- 1.2. Quantum Interpretation of Induced Cyclotron Radiation -- 1.3. Autoresonance -- 1.4. Normal and Anomalous Doppler Effects -- 1.5. Electron Deceleration -- 1.6. Optimum Choice of Parameters -- 1.7. Problems and Solutions -- Chapter 2 Gyrotron Arrangement -- 2.1. Velocity Spread and Inhomogeneous Doppler Broadening Operation Near Cutoff -- 2.2. Electron Optics. Magnetron Injection Guns -- 2.3. Microwave Structures (Cavities and Waveguides) -- 2.4. Types of Gyrodevices -- 2.5. Magnets and Solenoids -- 2.6. Problems and Solutions -- PART II THEORY OF GvROTRON OsciLLATORS AND AMPLIFIERS -- Chapter 3 Linear Theory of the Gyromonotron -- 3.1. Transversely Homogeneous Model -- 3.2. Gyro-Averaged Equations of Electron Motion: General Approach -- 3.3. Excitation of Resonators: General Form -- 3.4. Self-Excitation Conditions -- 3.5. Mode Selection -- 3.6. Problems and Solutions -- Chapter 4 Nonlinear Theory of the Gyromonotron (Single-Mode Treatment) -- 4.1. Cold-Cavity Approximation -- 4.2. Self-Consistent Approach -- 4.3. Effect of Velocity Spread -- 4.4. Space-Charge Effects -- 4.5. Trade-Offs in the Gyrotron Design -- 4.6. Problems and Solutions -- Chapter 5 Mode Interaction in the Gyromonotron -- 5.1. Preliminary Remarks -- 5.2. Main Effects in the Mode Interaction -- 5.3. Start-up Scenario -- 5.4. Phase Locking in Multimode Gyrotrons -- 5.5. Problems and Solutions -- Chapter 6 Linear Theory of the Gyro-TWT -- 6.1. Introduction: Instability in Magnetoactive Plasma -- 6.2. Derivation of the Dispersion Equation for the Gyro-TWT -- 6.3. Small-Signal Gain in Single-Stage and !Vlultistage Devices -- 6.4. Bandwidth.
6.5. Stability -- Chapter 7 Nonlinear Theory of the Gyro-TWT -- 7.1. Self-Consistent Set of Equations. Energy Conservation Law. Low-Current Limit -- 7.2. Beam-Wave Interaction -- 7.3. Gain and Bandvvidth -- 7.4. Concluding Remarks -- 7.5. Problems and Solutions -- Chapter 8 Theory of Gyroklystrons -- 8.1. Introductory Remarks -- 8.2. General Formalism. Point-Gap Model -- 8.3. Gain, Bandwidth, and Efficiency -- 8.4. Two-Cavity Gyroklystron -- 8.5. Problems and Solutions -- Chapter 9 Fluctuations: Intrinsic and Extrinsic Noise -- 9.1. Radiation Linewidth, Sources of Noise -- 9.2. General Formalism -- 9.3. Intrinsic Noise Sources. Shot Noise -- 9.4. Extrinsic Noise -- 9.5. Phase Stability of Gyroamplifiers -- 9.6. Problems and Solutions -- PART III THE DEVELOPMENT OF GVRODEVICES -- Chapter 10 Gyrotron Oscillators for Controlled Fusion Experiments -- 10.1. Historical Introduction -- 10.2. Quasi-Optical Mode Converters -- 10.3. Output Windows -- 10.4. Depressed Collectors -- 10.5. Experimental Results -- Chapter 11 Gyroklystrons -- 11.1. Historical Introduction -- 11.2. Gyroklystrons for Radar Applications -- 11.3. Gyroklystrons for Charged Particle Accelerators -- Chapter 12 Gyro-Traveling-Wave Tubes -- 12.1. Historical Introduction -- 12.2. Large-Bandwidth Gyro-TWTs -- 12.3. High-Gain Gyro-TWTs -- Chapter 13 Other Types of Gyrodevices -- 13.1. Gyro-Backward-Wave Oscillator -- 13.2. Gyrotwystron -- 13.3. Quasi-Optical Gyrotron -- 13.4. Cyclotron Auto-Resonance Maser (CARM) -- 13.5. Cyclotron Maser Based on the Anomalous Doppler Effect -- 13.6. Large-Orbit Gyrotron -- 13.7. Peniotron, Gyropeniotron, and Autoresonant Peniotron -- 13.8. Problems and Solutions -- Summary -- Appendix 1: Derivation of Gyro-Averaged Equations -- Appendix 2: Wave Excitation by Electron Beams in Waveguides.
Appendix 3: Derivation of the Self-Consistent Set of Equations for the Gyro-TWT -- References -- Index.
Record Nr. UNINA-9910524882103321
Nusinovich G. S  
Johns Hopkins University Press, 2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
State-of-the-art of high-power gyro-devices update of experimental results 2021 / / Manfred Thumm
State-of-the-art of high-power gyro-devices update of experimental results 2021 / / Manfred Thumm
Autore Thumm Manfred
Pubbl/distr/stampa Karlsruhe : , : KIT Scientific Publishing, , [2021]
Descrizione fisica 1 online resource (158 pages)
Disciplina 621.381336
Collana Karlsruher Institut für Technologie
Soggetto topico Gyrotrons
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910508307003321
Thumm Manfred  
Karlsruhe : , : KIT Scientific Publishing, , [2021]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui