Modeling of CollisionsEditions Scientifiques et Medicales Elsevier, 1998 - 222 من الصفحات |
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الصفحة 63
The main reason is that it is generally preferred not to solve too many fluid equations at the same time , so that all ionic temperatures are assumed equal . Even if it is not needed in current codes , ionic temperature relaxation is ...
The main reason is that it is generally preferred not to solve too many fluid equations at the same time , so that all ionic temperatures are assumed equal . Even if it is not needed in current codes , ionic temperature relaxation is ...
الصفحة 72
7 Ionic transport We treat in this chapter various cases where ionic vectorial perturbation equations are uncoupled . 7.1 Light ions Consider a plasma including one light ion species h ( hydrogen for instance ) and any number of heavy ...
7 Ionic transport We treat in this chapter various cases where ionic vectorial perturbation equations are uncoupled . 7.1 Light ions Consider a plasma including one light ion species h ( hydrogen for instance ) and any number of heavy ...
الصفحة 97
Note that electronic and ionic viscosities now add up in the plasma equation of the motion ( 9-5 ) . The ratio between the two is of the order of Z√me / m : if the ion charge is small , ionic viscosity prevails ; if the charge is large ...
Note that electronic and ionic viscosities now add up in the plasma equation of the motion ( 9-5 ) . The ratio between the two is of the order of Z√me / m : if the ion charge is small , ionic viscosity prevails ; if the charge is large ...
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عبارات ومصطلحات مألوفة
atomic species BBGKY hierarchy Boltzmann Equation Braginskii charge classical collision frequencies collision integrals collision operator collision terms collisional conservation equation Coulomb logarithms Debye length defined diffusion distribution function electric field electron-ion energy equation Enskog equal mass ions equation set equilibrium fluid equations Fokker-Planck Galilean invariance gives heat flux heavy ions hydrodynamic interaction interdiffusion ion species ionic kinetic Landau Lemma limit linear magnetic field Maxwellian distributions Maxwellian estimate mean velocity multi-fluid equations neutral plasma numerical obtained Ohm's law particle Perthame perturbation calculation perturbation equations Phys Plasma Physics quantum Quantum Hydrodynamics Raß relative velocity scalar self-collision T₁ tensor Theorem thermal transport coefficients transport equations U₂ vector viscosity Vlasov Equation Wigner Yaß αβ მა
معلومات المراجع
| العنوان | Modeling of Collisions المجلد 2 من Series in applied mathematics |
| المؤلفون | A. Decoster, Peter A. Markowich, B. Perthame |
| المُحرر | Pierre-Arnaud Raviart |
| الناشر | Editions Scientifiques et Medicales Elsevier, 1998 |
| أصلي من | جامعة كاليفورنيا |
| الكتب ذات التنسيق الرقمي | 1 شباط (فبراير) 2011 |
| رقم ISBN (الرقم الدولي المعياري للكتاب) | 2842990676, 9782842990671 |
| عدد الصفحات | 222 من الصفحات |
| تصدير الاقتباس | BiBTeX EndNote RefMan |