Proceedings of the International School of Physics "Enrico Fermi.", Volume 25N. Zanichelli, 1953 - Nuclear physics |
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Page 101
Saturation current per unit area . D Diffusion coefficient . e Elementary charge . E Energy . h Plank's constant . i I j J k k L ሰቦ 202 q P R T V υ X β Saturation current . Current per unit area . Current . Boltzmann constant ...
Saturation current per unit area . D Diffusion coefficient . e Elementary charge . E Energy . h Plank's constant . i I j J k k L ሰቦ 202 q P R T V υ X β Saturation current . Current per unit area . Current . Boltzmann constant ...
Page 109
... saturation current I + for the representative Hg discharge plotted Ro / R for various pressures ( 10 , 35 , 100 atm ) and various currents ( 3,6 and 12 A ) . Also the temperature T , is given . produced in the anode region to those to ...
... saturation current I + for the representative Hg discharge plotted Ro / R for various pressures ( 10 , 35 , 100 atm ) and various currents ( 3,6 and 12 A ) . Also the temperature T , is given . produced in the anode region to those to ...
Page 112
... current J and the saturation current I ( resp . I_ ) . One of the important laws of electrodynamics is of course the law of charge conservation which in our special case requires that the total current be the sum of the saturation ...
... current J and the saturation current I ( resp . I_ ) . One of the important laws of electrodynamics is of course the law of charge conservation which in our special case requires that the total current be the sum of the saturation ...
Contents
W B THOMPSON Kinetic theory of plasma | 97 |
Topics in microinstabilities | 137 |
carrier mass | 159 |
Copyright | |
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adiabatic invariant amplitude approximation Boltzmann equation boundary conditions boundary layer calculated cathode coefficient collision components consider constant contraction corresponds courbe critère current density d³k d³v Debye length derived differential equations discharge dispersion relation distribution function eigenvalue electric field electrons and ions electrostatic energy principle equations of motion equilibrium exp[i(k finite fluid theory frequency given Hence instability integral interaction ionized k₁ KRUSKAL l'axe magnétique limit Liouville function lowest order magnetic field Maxwell's equations mode nonlinear obtain Ohm's law P₁ parameter particle périodique perturbation Phys plasma oscillations Plasma Physics Poisson's equation potential problem quantities R₁ region Rendiconti S.I.F. satisfied saturation current solution solving stabilité stability temperature thermal tion v₁ values variables vector velocity x₁ zero zero-order Απ