Descripción del título
The covariant (4-tensor) theory for relativistic quantum plasmas presented in the first volume is generalized to magnetized plasma in this second volume. The firstfour chapters areconcerned with classical theory, including covariant forms of cold-plasma, MHD and kinetic theory and the theory of gyromagnetic emission. The response 4-tensor for an arbitrary distribution is evaluated, using both the forward-scattering and Vlasov methods, applied to a relativistic thermal distribution and used to discuss wave dispersion in relativistic magnetized plasmas. In the second half of the book, solutions of Dirac's equation for a magnetized electron are used to develop a magnetized version of QED. This form of QED is applied to gyromagnetic processes, the response of the magnetized vacuum and the response of a magnetized electron gas. The theory has a potentially wide range of applications, such as super-strong magnetic fields in pulsars, high-powered lasers and spin-dependence in a laboratory electron gas
Monografía
monografia Rebiun12851383 https://catalogo.rebiun.org/rebiun/record/Rebiun12851383 120920s2013 xxu| s |||| 0|eng d 9781461440451 978-1-4614-4045-1 9781461440444 ed. impresa) UMA.RE Melrose, Donald Quantum Plasmadynamics Recurso electrónico] Magnetized Plasmas by Donald Melrose Servicio en línea New York, NY Springer New York Imprint: Springer 2013 New York, NY New York, NY Springer New York Imprint: Springer XIV, 490 p. 41 illus. digital XIV, 490 p. 41 illus. Lecture Notes in Physics 0075-8450 854 Preface -- Chapter 1: Covariant Fluid Models for Magnetized Plasmas -- Chapter 2: Response Tensors for Magnetized Plasmas -- Chapter 3: Waves in Magnetized Plasmas -- Chapter 4: Gyromagnetic Processes -- Chapter 5: Magnetized Dirac Electron -- Chapter 6: Quantum Theory of Gyromagnetic Processes -- Chapter Acceso restringido a miembros del Consorcio de Bibliotecas Universitarias de Andalucía The covariant (4-tensor) theory for relativistic quantum plasmas presented in the first volume is generalized to magnetized plasma in this second volume. The firstfour chapters areconcerned with classical theory, including covariant forms of cold-plasma, MHD and kinetic theory and the theory of gyromagnetic emission. The response 4-tensor for an arbitrary distribution is evaluated, using both the forward-scattering and Vlasov methods, applied to a relativistic thermal distribution and used to discuss wave dispersion in relativistic magnetized plasmas. In the second half of the book, solutions of Dirac's equation for a magnetized electron are used to develop a magnetized version of QED. This form of QED is applied to gyromagnetic processes, the response of the magnetized vacuum and the response of a magnetized electron gas. The theory has a potentially wide range of applications, such as super-strong magnetic fields in pulsars, high-powered lasers and spin-dependence in a laboratory electron gas Modo de acceso: World Wide Web Springer (Phys) Physics Quantum theory Physics Astrophysics and Astroparticles Quantum Physics Atoms and Molecules in Strong Fields, Laser Matter Interaction Plasma Physics SpringerLink (Online service) SpringerLink eBooks (Servicio en línea) Lecture Notes in Physics (Servicio en línea) Springer eBooks Springer eBooks