Modeling of CollisionsGauthier-Villars, 1998 - 222 من الصفحات |
من داخل الكتاب
النتائج 1-3 من 32
الصفحة
... Chapter 6 Electronic transport 68 6.1 Reduced vectorial perturbation equations 69 6.2 Vectorial transport equations 71 Chapter 7 Ionic transport 72 7.1 Light ions 72 7.2 Heavy ions 72 7.3 Equal mass ions 73 Chapter 8 Numerical ...
... Chapter 6 Electronic transport 68 6.1 Reduced vectorial perturbation equations 69 6.2 Vectorial transport equations 71 Chapter 7 Ionic transport 72 7.1 Light ions 72 7.2 Heavy ions 72 7.3 Equal mass ions 73 Chapter 8 Numerical ...
الصفحة
... Chapter 13 Systems of particles and the Boltzmann - Grad 152 limit 13.1 Some notations 13.2 Self consistent Vlasov limit 13.3 Boltzmann - Grad limit 13.4 Monte - Carlo method Chapter 14 Some other collision models Polyatomic gases 14.1 ...
... Chapter 13 Systems of particles and the Boltzmann - Grad 152 limit 13.1 Some notations 13.2 Self consistent Vlasov limit 13.3 Boltzmann - Grad limit 13.4 Monte - Carlo method Chapter 14 Some other collision models Polyatomic gases 14.1 ...
الصفحة 7
... chapter 1 , we recall the problem of closing the plasma fluid equations , imposing electrical neutrality , and going to a hydrodynamic description with ion interdiffusion . There is thus a sequence of plasma description levels , from ...
... chapter 1 , we recall the problem of closing the plasma fluid equations , imposing electrical neutrality , and going to a hydrodynamic description with ion interdiffusion . There is thus a sequence of plasma description levels , from ...
طبعات أخرى - عرض جميع المقتطفات
عبارات ومصطلحات مألوفة
appear approximation assumed atomic average Boltzmann Equation calculation chapter charge classical close collision frequencies collision terms collisional computed conservation consider correct Coulomb logarithms coupled defined density depend developed diffusion distribution function effect electrons energy equal equilibrium estimate existence expressions finally fluid flux formula frame given gives heat heavy hydrodynamic integrals interaction ion species ionic kinetic light limit linear mass Maxwellian mean mean velocity momentum multi-fluid neutral Note numerical obtained operator parameter particle particular perturbation perturbation equations Phys physics plasma pressure problem properties quantities quantum quantum mechanical reduced reference relations relative satisfies scalar single solution solved temperature tensor theory thermal transport coefficients transport equations vector αβ Μα