Electric properties of weakly nonideal plasmas / K. Günther, R. Radtke |
Autore | Günther, Klaus <1940- > |
Pubbl/distr/stampa | Basel [etc.] : Birkhäuser, 1984 |
Descrizione fisica | VIII, 114 p. ; 24 cm |
Disciplina | 530.44 |
Altri autori (Persone) | Radtke, Rainer |
Collana | Experientia, Supplementum |
Soggetto non controllato | Plasmi |
ISBN | 3-7643-1635-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-990000832540403321 |
Günther, Klaus <1940- > | ||
Basel [etc.] : Birkhäuser, 1984 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Electrodynamics of Conducting Dispersive Media [[electronic resource] /] / by Babak Shokri, Anri A. Rukhadze |
Autore | Shokri Babak |
Edizione | [1st ed. 2019.] |
Pubbl/distr/stampa | Cham : , : Springer International Publishing : , : Imprint : Springer, , 2019 |
Descrizione fisica | 1 online resource (xii, 485 pages) : illustrations |
Disciplina | 530.44 |
Collana | Springer Series on Atomic, Optical, and Plasma Physics |
Soggetto topico |
Plasma (Ionized gases)
Optics Electrodynamics Fluids Magnetism Magnetic materials Semiconductors Plasma Physics Classical Electrodynamics Fluid- and Aerodynamics Magnetism, Magnetic Materials |
ISBN | 3-030-28968-0 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Chapter1: Principles of Electrodynamics of Media with Spatial Dispersion -- Chapter2: Isotropic Plasma -- Chapter3: Anisotropic Plasma -- Chapter4: Quantum Plasma (Influence of spatial Dispersion on some Phenomena in Metals) -- Chapter5: Spatial Dispersion in Molecular Crystals. |
Record Nr. | UNINA-9910373930303321 |
Shokri Babak | ||
Cham : , : Springer International Publishing : , : Imprint : Springer, , 2019 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Electrodynamics of Plasmas / R. Jancel and Th. Kahan |
Autore | Jancel, Raymond |
Pubbl/distr/stampa | London [etc.] : John Wiley, 1966 |
Disciplina | 530.44 |
Soggetto non controllato | Plasmi |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-990001012960403321 |
Jancel, Raymond | ||
London [etc.] : John Wiley, 1966 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Electrodynamique des plasmas : fondée sur la mécanique statistique : cours professé à la Sorbonne en troisiéme cycle / par R. Jancel, Th. Kahan |
Autore | Jancel, Raymond |
Pubbl/distr/stampa | Paris : Dunod, 1963- |
Descrizione fisica | v. ; 25 cm |
Disciplina | 530.44 |
Altri autori (Persone) | Kahan, Thêo <1904-1984> |
Soggetto non controllato | Fisica del plasma |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | fre |
Nota di contenuto | 1.: Processus physiques et méthodesmathématique |
Record Nr. | UNINA-990000261320403321 |
Jancel, Raymond | ||
Paris : Dunod, 1963- | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Electromagnetic Fluctuations in Plasma / A.G. Sitenko, Translated by Morris D. Friedman |
Autore | Sitenko, Aleksei Grigorevich |
Pubbl/distr/stampa | New York : Academic Press, 1967 |
Disciplina | 530.44 |
Soggetto non controllato | Plasmi |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-990001062120403321 |
Sitenko, Aleksei Grigorevich | ||
New York : Academic Press, 1967 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Electron cyclotron heating of plasmas [[electronic resource] /] / Gareth Guest |
Autore | Guest Gareth, Dr. |
Pubbl/distr/stampa | Weinheim, : VCH, c2009 |
Descrizione fisica | 1 online resource (265 p.) |
Disciplina |
530.44
621.484 |
Soggetto topico |
Electron cyclotron resonance sources
Electron cyclotron resonance sources - Industrial applications Plasma heating Plasma heating - Industrial applications |
Soggetto genere / forma | Electronic books. |
ISBN |
1-282-37987-9
9786612379871 3-527-62788-X 3-527-62789-8 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Electron Cyclotron Heating of Plasmas; Contents; 1 Introduction; References; 2 Magnetic Fields; 2.1 Magnetic Mirrors: Field Calculations Using the Vector Potential; 2.2 Orthogonal Curvilinear Coordinates and Clebsch Representations; 2.3 Magnetic Mirrors: Field Calculations Using the Scalar Potential; 2.4 The Dipole Limit: Planetary Magnetic Fields; 2.5 Tokamaks: Rotational Transform and the ""Safety Factor""; References; 3 Electron Orbits; 3.1 Electron Gyromotion; 3.2 Electron Bounce Motion; 3.3 Electron Drift Motions; 3.4 Relativistic Electron Kinematics for ECH; 3.5 The Hamiltonian Approach
3.6 Drift Orbits in Toroidal Magnetic ConfigurationsReferences; 4 Wave Propagation and Cyclotron Damping in Magnetized Plasmas; 4.1 The Cold-Plasma Dispersion Relation; 4.2 Critical Conditions for Parallel Propagation; 4.3 Critical Conditions for Perpendicular Propagation; 4.4 Clemmow-Mullaly-Allis Diagrams; 4.5 The High-Field Regime; 4.6 The Low-Field Regime; 4.7 A Few Preliminary Implications for ECH Experiments; 4.8 Wave Damping; 4.8.1 A Collisional Model of Damping; 4.8.2 An Introduction to Collisionless Cyclotron Damping; 4.8.3 Cyclotron Damping of Whistler Waves 4.8.4 Cyclotron Damping of Waves Propagating as O-Modes4.9 Electrostatic Plasma Waves; 4.10 Estimates of the Electric Field Amplitude; 4.11 Ray Tracing in Inhomogeneous Plasmas; References; 5 Interaction of Electrons with Electromagnetic Fields at Resonance; 5.1 A Rudimentary Stochastic Model of ECH; 5.2 Dynamics of the Fundamental Resonance Interaction; 5.2.1 Dynamics of the Electron Interaction With X-Mode Waves; 5.2.2 Dynamics of the Electron Interaction With Parallel RF Electric Fields; 5.2.3 Dynamics of the Electron Interaction with O-Mode Waves; 5.3 Heating of Relativistic Electrons 5.4 Limit Cycles5.5 Nonlinear Effects: Mapping Approaches; References; 6 Equilibrium; 6.1 Charge Balance; 6.2 Particle and Power Balance; 6.2.1 Particle and Energy Balance for Group 1; 6.3 Breakdown and Start-up; 6.3.1 Breakdown by Heating on the Midplane of a Magnetic Mirror; 6.3.2 Breakdown with Heating Well Off the Midplane; 6.3.3 Breakdown with Heating near the Midplane; 6.4 ECH Runaway: Groups 2 and 3; 6.4.1 Particle Balance for Electrons in Group 2; 6.4.2 Particle and Power Balance for Electrons in Group 3; 6.5 Fokker-Planck Models of Hot-Electron Equilibria 6.6 Ad Hoc Velocity-Space Models of Anisotropic Hot-Electron EquilibriaReferences; 7 Stability; 7.1 Interchange Instabilities; 7.2 Electrostatic Velocity-Space Instabilities Driven by Wave-Particle Interactions; 7.3 Electromagnetic Velocity Space Instabilities; References; 8 Experimental Results in Magnetic Mirrors; 8.1 Hot-Electron Experiments in ""Physics Test Facility"" and EPA [1-3]; 8.2 High-Beta Experiments in ELMO [9]; 8.3 Unstable Electromagnetic Waves in the TPM [12]; 8.4 Heating Experiments in AMPHED [15]; References; 9 Electron Cyclotron Heating in Tokamaks 9.1 Ordinary-Mode Fundamental ECH Absorption in PLT |
Record Nr. | UNINA-9910139539203321 |
Guest Gareth, Dr. | ||
Weinheim, : VCH, c2009 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Electron cyclotron heating of plasmas [[electronic resource] /] / Gareth Guest |
Autore | Guest Gareth, Dr. |
Pubbl/distr/stampa | Weinheim, : VCH, c2009 |
Descrizione fisica | 1 online resource (265 p.) |
Disciplina |
530.44
621.484 |
Soggetto topico |
Electron cyclotron resonance sources
Electron cyclotron resonance sources - Industrial applications Plasma heating Plasma heating - Industrial applications |
ISBN |
1-282-37987-9
9786612379871 3-527-62788-X 3-527-62789-8 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Electron Cyclotron Heating of Plasmas; Contents; 1 Introduction; References; 2 Magnetic Fields; 2.1 Magnetic Mirrors: Field Calculations Using the Vector Potential; 2.2 Orthogonal Curvilinear Coordinates and Clebsch Representations; 2.3 Magnetic Mirrors: Field Calculations Using the Scalar Potential; 2.4 The Dipole Limit: Planetary Magnetic Fields; 2.5 Tokamaks: Rotational Transform and the ""Safety Factor""; References; 3 Electron Orbits; 3.1 Electron Gyromotion; 3.2 Electron Bounce Motion; 3.3 Electron Drift Motions; 3.4 Relativistic Electron Kinematics for ECH; 3.5 The Hamiltonian Approach
3.6 Drift Orbits in Toroidal Magnetic ConfigurationsReferences; 4 Wave Propagation and Cyclotron Damping in Magnetized Plasmas; 4.1 The Cold-Plasma Dispersion Relation; 4.2 Critical Conditions for Parallel Propagation; 4.3 Critical Conditions for Perpendicular Propagation; 4.4 Clemmow-Mullaly-Allis Diagrams; 4.5 The High-Field Regime; 4.6 The Low-Field Regime; 4.7 A Few Preliminary Implications for ECH Experiments; 4.8 Wave Damping; 4.8.1 A Collisional Model of Damping; 4.8.2 An Introduction to Collisionless Cyclotron Damping; 4.8.3 Cyclotron Damping of Whistler Waves 4.8.4 Cyclotron Damping of Waves Propagating as O-Modes4.9 Electrostatic Plasma Waves; 4.10 Estimates of the Electric Field Amplitude; 4.11 Ray Tracing in Inhomogeneous Plasmas; References; 5 Interaction of Electrons with Electromagnetic Fields at Resonance; 5.1 A Rudimentary Stochastic Model of ECH; 5.2 Dynamics of the Fundamental Resonance Interaction; 5.2.1 Dynamics of the Electron Interaction With X-Mode Waves; 5.2.2 Dynamics of the Electron Interaction With Parallel RF Electric Fields; 5.2.3 Dynamics of the Electron Interaction with O-Mode Waves; 5.3 Heating of Relativistic Electrons 5.4 Limit Cycles5.5 Nonlinear Effects: Mapping Approaches; References; 6 Equilibrium; 6.1 Charge Balance; 6.2 Particle and Power Balance; 6.2.1 Particle and Energy Balance for Group 1; 6.3 Breakdown and Start-up; 6.3.1 Breakdown by Heating on the Midplane of a Magnetic Mirror; 6.3.2 Breakdown with Heating Well Off the Midplane; 6.3.3 Breakdown with Heating near the Midplane; 6.4 ECH Runaway: Groups 2 and 3; 6.4.1 Particle Balance for Electrons in Group 2; 6.4.2 Particle and Power Balance for Electrons in Group 3; 6.5 Fokker-Planck Models of Hot-Electron Equilibria 6.6 Ad Hoc Velocity-Space Models of Anisotropic Hot-Electron EquilibriaReferences; 7 Stability; 7.1 Interchange Instabilities; 7.2 Electrostatic Velocity-Space Instabilities Driven by Wave-Particle Interactions; 7.3 Electromagnetic Velocity Space Instabilities; References; 8 Experimental Results in Magnetic Mirrors; 8.1 Hot-Electron Experiments in ""Physics Test Facility"" and EPA [1-3]; 8.2 High-Beta Experiments in ELMO [9]; 8.3 Unstable Electromagnetic Waves in the TPM [12]; 8.4 Heating Experiments in AMPHED [15]; References; 9 Electron Cyclotron Heating in Tokamaks 9.1 Ordinary-Mode Fundamental ECH Absorption in PLT |
Record Nr. | UNISA-996208056503316 |
Guest Gareth, Dr. | ||
Weinheim, : VCH, c2009 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. di Salerno | ||
|
Electron cyclotron heating of plasmas [[electronic resource] /] / Gareth Guest |
Autore | Guest Gareth, Dr. |
Pubbl/distr/stampa | Weinheim, : VCH, c2009 |
Descrizione fisica | 1 online resource (265 p.) |
Disciplina |
530.44
621.484 |
Soggetto topico |
Electron cyclotron resonance sources
Electron cyclotron resonance sources - Industrial applications Plasma heating Plasma heating - Industrial applications |
ISBN |
1-282-37987-9
9786612379871 3-527-62788-X 3-527-62789-8 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Electron Cyclotron Heating of Plasmas; Contents; 1 Introduction; References; 2 Magnetic Fields; 2.1 Magnetic Mirrors: Field Calculations Using the Vector Potential; 2.2 Orthogonal Curvilinear Coordinates and Clebsch Representations; 2.3 Magnetic Mirrors: Field Calculations Using the Scalar Potential; 2.4 The Dipole Limit: Planetary Magnetic Fields; 2.5 Tokamaks: Rotational Transform and the ""Safety Factor""; References; 3 Electron Orbits; 3.1 Electron Gyromotion; 3.2 Electron Bounce Motion; 3.3 Electron Drift Motions; 3.4 Relativistic Electron Kinematics for ECH; 3.5 The Hamiltonian Approach
3.6 Drift Orbits in Toroidal Magnetic ConfigurationsReferences; 4 Wave Propagation and Cyclotron Damping in Magnetized Plasmas; 4.1 The Cold-Plasma Dispersion Relation; 4.2 Critical Conditions for Parallel Propagation; 4.3 Critical Conditions for Perpendicular Propagation; 4.4 Clemmow-Mullaly-Allis Diagrams; 4.5 The High-Field Regime; 4.6 The Low-Field Regime; 4.7 A Few Preliminary Implications for ECH Experiments; 4.8 Wave Damping; 4.8.1 A Collisional Model of Damping; 4.8.2 An Introduction to Collisionless Cyclotron Damping; 4.8.3 Cyclotron Damping of Whistler Waves 4.8.4 Cyclotron Damping of Waves Propagating as O-Modes4.9 Electrostatic Plasma Waves; 4.10 Estimates of the Electric Field Amplitude; 4.11 Ray Tracing in Inhomogeneous Plasmas; References; 5 Interaction of Electrons with Electromagnetic Fields at Resonance; 5.1 A Rudimentary Stochastic Model of ECH; 5.2 Dynamics of the Fundamental Resonance Interaction; 5.2.1 Dynamics of the Electron Interaction With X-Mode Waves; 5.2.2 Dynamics of the Electron Interaction With Parallel RF Electric Fields; 5.2.3 Dynamics of the Electron Interaction with O-Mode Waves; 5.3 Heating of Relativistic Electrons 5.4 Limit Cycles5.5 Nonlinear Effects: Mapping Approaches; References; 6 Equilibrium; 6.1 Charge Balance; 6.2 Particle and Power Balance; 6.2.1 Particle and Energy Balance for Group 1; 6.3 Breakdown and Start-up; 6.3.1 Breakdown by Heating on the Midplane of a Magnetic Mirror; 6.3.2 Breakdown with Heating Well Off the Midplane; 6.3.3 Breakdown with Heating near the Midplane; 6.4 ECH Runaway: Groups 2 and 3; 6.4.1 Particle Balance for Electrons in Group 2; 6.4.2 Particle and Power Balance for Electrons in Group 3; 6.5 Fokker-Planck Models of Hot-Electron Equilibria 6.6 Ad Hoc Velocity-Space Models of Anisotropic Hot-Electron EquilibriaReferences; 7 Stability; 7.1 Interchange Instabilities; 7.2 Electrostatic Velocity-Space Instabilities Driven by Wave-Particle Interactions; 7.3 Electromagnetic Velocity Space Instabilities; References; 8 Experimental Results in Magnetic Mirrors; 8.1 Hot-Electron Experiments in ""Physics Test Facility"" and EPA [1-3]; 8.2 High-Beta Experiments in ELMO [9]; 8.3 Unstable Electromagnetic Waves in the TPM [12]; 8.4 Heating Experiments in AMPHED [15]; References; 9 Electron Cyclotron Heating in Tokamaks 9.1 Ordinary-Mode Fundamental ECH Absorption in PLT |
Record Nr. | UNINA-9910830512203321 |
Guest Gareth, Dr. | ||
Weinheim, : VCH, c2009 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Electron cyclotron heating of plasmas [[electronic resource] /] / Gareth Guest |
Autore | Guest Gareth, Dr. |
Pubbl/distr/stampa | Weinheim, : VCH, c2009 |
Descrizione fisica | 1 online resource (265 p.) |
Disciplina |
530.44
621.484 |
Soggetto topico |
Electron cyclotron resonance sources
Electron cyclotron resonance sources - Industrial applications Plasma heating Plasma heating - Industrial applications |
ISBN |
1-282-37987-9
9786612379871 3-527-62788-X 3-527-62789-8 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Electron Cyclotron Heating of Plasmas; Contents; 1 Introduction; References; 2 Magnetic Fields; 2.1 Magnetic Mirrors: Field Calculations Using the Vector Potential; 2.2 Orthogonal Curvilinear Coordinates and Clebsch Representations; 2.3 Magnetic Mirrors: Field Calculations Using the Scalar Potential; 2.4 The Dipole Limit: Planetary Magnetic Fields; 2.5 Tokamaks: Rotational Transform and the ""Safety Factor""; References; 3 Electron Orbits; 3.1 Electron Gyromotion; 3.2 Electron Bounce Motion; 3.3 Electron Drift Motions; 3.4 Relativistic Electron Kinematics for ECH; 3.5 The Hamiltonian Approach
3.6 Drift Orbits in Toroidal Magnetic ConfigurationsReferences; 4 Wave Propagation and Cyclotron Damping in Magnetized Plasmas; 4.1 The Cold-Plasma Dispersion Relation; 4.2 Critical Conditions for Parallel Propagation; 4.3 Critical Conditions for Perpendicular Propagation; 4.4 Clemmow-Mullaly-Allis Diagrams; 4.5 The High-Field Regime; 4.6 The Low-Field Regime; 4.7 A Few Preliminary Implications for ECH Experiments; 4.8 Wave Damping; 4.8.1 A Collisional Model of Damping; 4.8.2 An Introduction to Collisionless Cyclotron Damping; 4.8.3 Cyclotron Damping of Whistler Waves 4.8.4 Cyclotron Damping of Waves Propagating as O-Modes4.9 Electrostatic Plasma Waves; 4.10 Estimates of the Electric Field Amplitude; 4.11 Ray Tracing in Inhomogeneous Plasmas; References; 5 Interaction of Electrons with Electromagnetic Fields at Resonance; 5.1 A Rudimentary Stochastic Model of ECH; 5.2 Dynamics of the Fundamental Resonance Interaction; 5.2.1 Dynamics of the Electron Interaction With X-Mode Waves; 5.2.2 Dynamics of the Electron Interaction With Parallel RF Electric Fields; 5.2.3 Dynamics of the Electron Interaction with O-Mode Waves; 5.3 Heating of Relativistic Electrons 5.4 Limit Cycles5.5 Nonlinear Effects: Mapping Approaches; References; 6 Equilibrium; 6.1 Charge Balance; 6.2 Particle and Power Balance; 6.2.1 Particle and Energy Balance for Group 1; 6.3 Breakdown and Start-up; 6.3.1 Breakdown by Heating on the Midplane of a Magnetic Mirror; 6.3.2 Breakdown with Heating Well Off the Midplane; 6.3.3 Breakdown with Heating near the Midplane; 6.4 ECH Runaway: Groups 2 and 3; 6.4.1 Particle Balance for Electrons in Group 2; 6.4.2 Particle and Power Balance for Electrons in Group 3; 6.5 Fokker-Planck Models of Hot-Electron Equilibria 6.6 Ad Hoc Velocity-Space Models of Anisotropic Hot-Electron EquilibriaReferences; 7 Stability; 7.1 Interchange Instabilities; 7.2 Electrostatic Velocity-Space Instabilities Driven by Wave-Particle Interactions; 7.3 Electromagnetic Velocity Space Instabilities; References; 8 Experimental Results in Magnetic Mirrors; 8.1 Hot-Electron Experiments in ""Physics Test Facility"" and EPA [1-3]; 8.2 High-Beta Experiments in ELMO [9]; 8.3 Unstable Electromagnetic Waves in the TPM [12]; 8.4 Heating Experiments in AMPHED [15]; References; 9 Electron Cyclotron Heating in Tokamaks 9.1 Ordinary-Mode Fundamental ECH Absorption in PLT |
Record Nr. | UNINA-9910840929103321 |
Guest Gareth, Dr. | ||
Weinheim, : VCH, c2009 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Elementary Processes in Hydrogen-Helium Plasmas : Cross Sections and Reaction Rate Coefficients / Ratko K. Janev, William D. Langer, Kenneth Evans, Jr. |
Autore | Janev, Ratko K. |
Pubbl/distr/stampa | Berlin [etc.] : Springer-Verlag |
Disciplina | 530.44 |
Collana | Springer series on atoms and plasmas |
Soggetto non controllato | Plasmi |
ISBN | 3-540-17588-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-990001349160403321 |
Janev, Ratko K. | ||
Berlin [etc.] : Springer-Verlag | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|