01293nam0-2200361---450-99000864341040332120131213101747.0IT6813609000864341FED01000864341(Aleph)000864341FED0100086434120080407d1969----km-y0itay50------baitaITa-------001yyNorme per l' accettazione di leganti idrauliciL. 26/5/1965, n. 595, DM 14/4/1966, DM 3/6/1968pozzolane, calci, pietre da costruzione, materiali laterizi, materiali per pavimentazioni, mattoni e terre refrattarieRR.DD 16/11/1939, nn. 2230-2231-2232-2233-2234-2235catrami e bitumi, pietrischi, graniglie, sabbie, cubetti di pietra, rocce asfalticheMilanoL. di G. Pirola1969186 p.ill.22 cmCollezione legale PirolaFinito di stampare nel 1968691.516ita691.517itaItalia423419ITUNINARICAUNIMARCBK9900086434104033211120001534DCATAL 4/4112620DINGEDCATADINGENorme per l' accettazione di leganti idraulici716281UNINA00943nam a2200265 i 450099100149411970753620020502194814.0000113s1997 it ||| | ita 8886232918b11520954-39ule_instPRUMB62105ExLDip. SSSCitaDeleuze, Gilles139769Rizoma :millepiani. Capitalismo e schizofrenia. 1 /Gilles Deleuze, Felix Guattari ; introduzione di Franco Berardi (Bifo)Roma :Castelvecchi,c1997265 p. ;19 cm.Filosofia della menteGuattari, FélixBerardi, Franco.b1152095402-04-1401-07-02991001494119707536LE021 DI8BISA2512021000037962le021-E0.00-l- 03030.i1171654x01-07-02Rizoma137351UNISALENTOle02101-01-00ma -itait 0105067nam 2200577 450 991083084470332120230801222156.03-527-63813-X3-527-63811-33-527-63812-1(CKB)2670000000167695(EBL)865223(OCoLC)773301845(SSID)ssj0000622286(PQKBManifestationID)11400716(PQKBTitleCode)TC0000622286(PQKBWorkID)10638019(PQKB)10617074(MiAaPQ)EBC865223(EXLCZ)99267000000016769520150416h20122012 uy 0gerur|n|---|||||txtccrHigh temperature plasmas theory and mathematical tools for laser and fusion plasmas /Karl-Heinz SpatschekWeinheim, Germany :WILEY-VCH Verlag,2012.©20121 online resource (1150 p.)Description based upon print version of record.3-527-41041-4 Includes bibliographical references and index.Cover; Half Title page; Title page; Copyright page; Preface; Chapter 1: Introduction; 1.1 Quasineutrality and Debye Shielding; 1.2 Degree of Ionization; 1.3 Characteristic Parameters; 1.4 Individual and Collective Effects; 1.5 Fusion Processes; Chapter 2: Single Particle Motion; 2.1 Heuristic Approaches to Guiding Center Motion; 2.2 Systematic Averaging; 2.3 Motion of a Single Particle (Electron) in an Electromagnetic Wave; 2.4 Lagevin Approach; Chapter 3: Plasma in Thermodynamic Equilibrium; 3.1 Basic Approach; 3.2 A Heuristic Derivation of the Modified Equation of State3.3 The Holtsmark Distribution for Electric MicrofieldsChapter 4: Kinetic Description of Nonequilibrium Plasmas; 4.1 Historical Remarks on Well-Known Kinetic Equations; 4.2 BBGKY Hierarchy; 4.3 Vlasov Equation and Landau Damping; 4.4 Z-Function and Dispersive Properties of a Collisionless and Unmagnetized Plasma; 4.5 Landau-Fokker-Planck Equation; 4.6 Kinetic Description of Strongly Magnetized Plasmas; Chapter 5: Fluid Description; 5.1 Moments and Hierarchy of Moment Equations; 5.2 Truncation of the Corresponding Hierarchy in the Case of the Boltzmann Equation5.3 General Outline and Models for Plasmas5.4 MHD Model; 5.5 Simple MHD Applications; Chapter 6: Principles of Linear and Stochastic Transport; 6.1 Moments in Linear Transport Theory; 6.2 The Hydrodynamic Regime in Linear Transport Theory; 6.3 Summary of Linear Transport Coefficients; 6.4 Nonlinear Transport Phenomenology; 6.5 Simple Models in Stochastic Transport Theory; 6.6 Basic Statistics for Magnetic Field Lines and Perpendicular Particle Diffusion; 6.7 Phenomenology of Stochastic Particle Diffusion Theory in Perpendicular Direction6.8 Stochastic Theory of the Parallel Test Particle Diffusion CoefficientChapter 7: Linear Waves and Instabilities; 7.1 Waves and Instabilities in the Homogeneous Vlasov Description; 7.2 Waves and Instabilities in Inhomogeneous Vlasov Systems; 7.3 Waves and Instabilities in the Magnetohydrodynamic Description; Chapter 8: General Theory of Nonlinear Waves and Solitons; 8.1 Historical Remarks; 8.2 The Generalized KdV Equation for Ion-Acoustic Solitons; 8.3 Envelope Solitons; 8.4 Nonlinear Langmuir Waves; 8.5 Longitudinal Stability of Generalized Langmuir Solitons; 8.6 Transverse Instabilities8.7 The Collapse Phenomenon and the Existence of Stable 3D SolitonsChapter 9: Nonlinear Wave Aspects in Laser-Matter Interaction; 9.1 History and Perspectives of Laser-Plasma Interaction; 9.2 Time- and Space-Dependent Maxwell Fluid Models; 9.3 Stationary Wave Solutions and Their Stability; 9.4 Parametric Instabilities in the Relativistic Regime; 9.5 Solitary Envelope Solutions and Their Stability; 9.6 Wake Field Excitation; 9.7 Breaking of Wake Fields; Appendix A: Units; Appendix B: Fourier and Laplace Transforms for PedestriansAppendix C: The Inverse Scattering Transform (IST) for Nonlinear WavesFilling the gap for a treatment of the subject as an advanced course in theoretical physics with a huge potential for future applications, this monograph discusses aspects of these applications and provides theoretical methods and tools for their investigation. Throughout this coherent and up-to-date work the main emphasis is on classical plasmas at high-temperatures, drawing on the experienced author's specialist background. As such, it covers the key areas of magnetic fusion plasma, laser-plasma-interaction and astrophysical plasmas, while also including nonlinear waves and phenomena. FoHigh temperature plasmasHigh temperature plasmas.530.44Spatschek Karl-Heinz1701839MiAaPQMiAaPQMiAaPQBOOK9910830844703321High temperature plasmas4085868UNINA