{"product_id":"reviews-of-plasma-physics-volume-13-von-m-leontovich-hrsg","title":"Reviews of Plasma Physics","description":"\u003cp\u003eParticle dynamics in magnetic traps.- 1. Introduction. Budker¿s problem.- 2. Choice of unperturbed system.- 3. A few examples.- 4. Adiabatic perturbation.- 5. Insignificant effect of perturbation.- 6. Nonlinear resonances.- 7. Resonant ay ?¿.- 8. Mapping.- 9. Standard mapping.- 10. Limit of global stability.- 11. Local diffusion.- 12. Dynamic correlations.- 13. Global diffusion.- 14. Cohen¿s mapping.- 15. Remarks on adiabatic invariance.- References.- Transport processes in axisymmetric open traps.- 1. Introduction.- 2. Plasma equilibrium.- 3. Drift motion of charged particles in open traps.- 4. Neoclassical transport in open traps.- 5. Resonant stochastic transport in open traps.- Appendix 1.- Appendix 2.- Appendix 3.- Appendix 4.- Appendix 5.- References.- Classical longitudinal plasma losses from open adiabatic traps.- 1. Basic principles of plasma confinement in simple mirror traps.- 2. Electron confinement in simple mirror traps..- 3. Ion confinement in simple mirror traps.- 4. Traps with improved longitudinal plasma confinement.- References.- Spectral-line broadening in a plasma.- 1. General equations for the intensity distribution in a line.- 2. Plasma microfield.- 3. Line-broadening mechanisms in a plasma. Character of atom interaction with a plasma microfield.- 4. Static theory and its generalizations.- 5. Impact theory of broadening by particles and waves.- 6. Transition from the impact to the static broadening mechanism.- 7. Comparison of theory with experiment. Conclusions.- References.- Electron cyclotron plasma heating in tokamaks.- 1. Electromagnetic waves in the region of electron-cyclotron resonance frequencies.- 2. Electron-cyclotron resonance in a homogeneous plasma with allowance for the thermal motion of the electrons.- 3. Poynting vector and energy absorption in cyclotron resonance.- 4. Accessibility of resonances in a tokamak.- 5. Cyclotron damping of waves in the model of one-dimensional inhomogeneity.- 6. Reflection of waves from a resonance region.- 7. Linear transformation of waves near the upper hybrid resonance.- 8. Eikonal equation in the vicinity of the cyclotron resonance and ray trajectories of waves.- 9. Applicability of geometric optics in the vicinity of cyclotron resonance.- 10. Ray trajectories and wave absorption in tokamaks.- 11. Role of nonlinear effects in electron-cyclotron heating.- References.\u003c\/p\u003e\u003cdiv class=\"aw-variant-hidden-subtitle-div\" id=\"aw-variant-subtitle-9781461577805\"\u003e\u003ch3\u003eVolume 13\u003c\/h3\u003e\u003c\/div\u003e","brand":"Libri","offers":[{"title":"Softcover - 9781461577805","offer_id":39417146802269,"sku":"9781461577805","price":53.49,"currency_code":"EUR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0940\/0622\/files\/747d4005-227a-4d50-b399-cd1a5fcc8410.jpg?v=1774757059","url":"https:\/\/shop.autorenwelt.de\/products\/reviews-of-plasma-physics-volume-13-von-m-leontovich-hrsg","provider":"Autorenwelt Shop","version":"1.0","type":"link"}