00974nam0-22003251i-450-99000049075040332120071107111644.00-12-498050-3000049075FED01000049075(Aleph)000049075FED0100004907520020821d1972----km-y0itay50------baenga-------001yyHeterojunctions and metal-semiconductor junctionsA. G. Milnes, D. L. FeuchtNew York ; LondonAcademic Press1972408 p.ill.23 cmSemiconduttoriGiunzioniTransistor a giunzione621.381'528Milnes,Arthur George461592Feucht,D. L.491759ITUNINARICAUNIMARCBK99000049075040332110 E I 1477515DINELDINELHeterojunctions and metal-semiconductor junctions333113UNINA05517nam 2200709Ia 450 99620805650331620230106011359.01-282-37987-997866123798713-527-62788-X3-527-62789-8(CKB)2550000000000728(EBL)482033(OCoLC)521036716(SSID)ssj0000337083(PQKBManifestationID)11304063(PQKBTitleCode)TC0000337083(PQKBWorkID)10287168(PQKB)11030720(MiAaPQ)EBC482033(EXLCZ)99255000000000072820090804d2009 uy 0engur|n|---|||||txtccrElectron cyclotron heating of plasmas[electronic resource] /Gareth GuestWeinheim VCHc20091 online resource (265 p.)Description based upon print version of record.3-527-40916-5 Includes bibliographical references and index.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 Approach3.6 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 Waves4.8.4 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 Electrons5.4 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 Equilibria6.6 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 Tokamaks9.1 Ordinary-Mode Fundamental ECH Absorption in PLTAuthored by a highly regarded plasma scientist, this book fills the gap for a topical reference and source with a professional audience in mind. While the use of this critical method at the international fusion reactor, ITER, is covered in detail, the monograph also includes planetary magnetospheres and plasma sources for commercial applications.With exercises and solutions for additional use as course reading.Electron cyclotron resonance sourcesProblems, exercises, etcElectron cyclotron resonance sourcesIndustrial applicationsElectron cyclotron resonance sourcesPlasma heatingProblems, exercises, etcPlasma heatingIndustrial applicationsPlasma heatingElectron cyclotron resonance sourcesElectron cyclotron resonance sourcesIndustrial applications.Electron cyclotron resonance sources.Plasma heatingPlasma heatingIndustrial applications.Plasma heating.530.44621.484Guest GarethDr.920437MiAaPQMiAaPQMiAaPQBOOK996208056503316Electron cyclotron heating of plasmas2064457UNISA01854nam2 22003613i 450 VAN010016620180206023736.140978-88-420-8206-420141211d2007 |0itac50 baitaIT|||| |||||ˆ1: ‰Teoria del dirittoLuigi FerrajoliRoma [etc.] : GLF editori Laterza, 2007X1021 p. ; 21 cm + 1 CD-RomTitolo del CD-Rom: 3: La sintassi del diritto.001VAN01001652001 Principia iuristeoria del diritto e della democraziaLuigi Ferrajoli210 RomaBariGLF editori Laterza215 volumi, CD-ROM21 cm.1DirittoTeorieVANC030313SGDemocraziaTeorieVANC030384SGBariVANL000009RomaVANL000360321.8Scienza politica. Sistemi democratici.21FerrajoliLuigiVANV005111145502Laterza <editore>VANV107871650ITSOL20230616RICABIBLIOTECA DEL DIPARTIMENTO DI SCIENZE POLITICHE JEAN MONNETIT-CE0182VAN04VAN0100166BIBLIOTECA DEL DIPARTIMENTO DI SCIENZE POLITICHE JEAN MONNET04CONS VI.A.a.209 04OMA1472 20180205 BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZA00CONS XXI.Dd.231 00UBG738 20141211 BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZA00CONS XXI.Dd.231 1 (bis) 00DG 3171 20150722 BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZA00CONS XXI.Dd.231 1 (ter) 00UBG357 20151112 Teoria del diritto69739UNICAMPANIA