02338nam a2200301 i 450099100435243790753620241121100550.0241121s1779 it er 001 0 ita dt-n- iuu-noon (ade (3)1779 (A)Bibl. Interfacoltà T. PellegrinoitaSocioculturale ScsitafreNicole, Pierre<1625-1695>160860La perpetuité de la foy de l'Eglise catholique touchant l'eucharistie. Avec la réfutation de l'écrit d'un ministre contre ce traité.La perpetuità della fede della chiesa cattolica rapporto all'eucaristia, con la confutazione dello scritto d'un ministro contro di questo trattato. Divisa in tre parti. Opera del fù sig. di Chanteresme. Ora per la prima volta tradotta dal franceseIn Venezia :presso Lorenzo Baseggio,1779382, [2] p. ;12ºDi Pierre Nicole. Cfr. OCLC: 636312392Fregio sul frontespizioCorsivo ; romanoSegnatura: A-Q¹²; bianca l'ultima cartaIl fondo Briganti-Stajano è stato annesso al patrimonio della Biblioteca Interfacoltà nel 1981. Le famiglie da cui il fondo prende il nome sono l'aristocratica famiglia gallipolina dei Briganti (fine XVIII sec.) e la famiglia Stajano di Sannicola, alla quale il fondo è pervenuto in eredità dopo la morte di Domenico Briganti, ultimo discendente (fine XIX sec.). Il fondo si compone di una sezione a stampa antica e moderna e di una sezione manoscritta. La sezione a stampa è costituita in buona parte dalla biblioteca dei due esponenti più noti dell’Illuminismo riformatore salentino, Tommaso Briganti (1691-1762) e il figlio Filippo (1726-1804), e riflette in pieno i loro interessi per le discipline storiche, giuridiche, economiche, religiose e filosofiche; sono presenti nella sezione, inoltre, libri, opuscoli, documenti e opere degli stessi Stajano.LE0021 esemplareLE002Briganti-Stajano <fam.><sec. 18-19.>possessore precedenteLE002Baseggio, LorenzoItaliaVenezia991004352437907536Perpetuité de la foy de l'Eglise catholique touchant l'eucharistie. Avec la réfutation de l'écrit d'un ministre contre ce traité4287225UNISALENTO06966oam 22005534a 450 991052488210332120240606213250.01-4214-2764-81-4214-2941-1(CKB)4590000000000111(OCoLC)1057857438(MdBmJHUP)muse69508(oapen)https://directory.doabooks.org/handle/20.500.12854/88716(MiAaPQ)EBC29139112(Au-PeEL)EBL29139112(oapen)doab88716(EXLCZ)99459000000000011120031103d2004 uy 0engur|||||||nn|ntxtrdacontentcrdamediacrrdacarrierIntroduction to the Physics of GyrotronsGregory S. Nusinovich ; foreword by Victor Granatstein and Richard Temkin1st ed.Johns Hopkins University Press2004Baltimore :Johns Hopkins University Press,2004.©2004.1 online resource (xvi, 335 p. :)ill. ;0-8018-7921-3 Includes bibliographical references (p. 309-327) and index.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.As unique sources of coherent high-power, microwave, and millimeter-wave radiation, gyrotrons are an essential part of the hunt for controlled fusion. Presently, gyrotrons are actively used for electron cyclotron resonance plasma heating and current drive in various controlled fusion reactors. These sources have been under development in many countries for more than forty years. In spite of their widespread use, however, there is as yet no single book to introduce non-specialists to this vital field.Now Gregory S. Nusinovich, an early pioneer of the gyrotron and widely regarded today as the world's leading authority on the subject, explains the fundamental physical principles upon which gyrotrons and related devices operate. Nusinovich first sets forth some "rules of thumb" that allow readers to understand gyrotron operation in simple terms. He then explores the fundamentals of the general theory of gyrotrons and offers an overview of the various types of gyro-devices, including gyromonotrons, gyroklystrons, gyro-traveling-wave tubes, and gyrotwystrons. He explains not only the theory, linear and nonlinear, but also the practical challenges that users of such devices face. This book will be of interest to undergraduate and graduate students as well as to those who develop gyrotrons or who use them in various applications. It should also appeal to plasma physicists interested in charged-particle dynamics, as well as to applied physicists needing to know more about micro- and millimeter-wave technologies.Particle dynamicsPlasma radiationGyrotronsParticle dynamics.Plasma radiation.Gyrotrons.530.4/4Nusinovich G. S1097565MdBmJHUPMdBmJHUPBOOK9910524882103321Introduction to the Physics of Gyrotrons2618022UNINA