Proceedings of the International School of Physics "Enrico Fermi.", Volume 25N. Zanichelli, 1953 - Nuclear physics |
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Page 112
... concept is to plot the saturation current and the electrode emission current as a function of the contraction parameter R / R to see whether this condition is met for all values of end contraction , or only for a limited number , or for ...
... concept is to plot the saturation current and the electrode emission current as a function of the contraction parameter R / R to see whether this condition is met for all values of end contraction , or only for a limited number , or for ...
Page 119
... concept all the questions which we used to characterize the are elec- trode problem . It was es- sential that we restricted Vr ( m / s ) Vr ( m / s ) 125 175 100 75 50 a ) 25 0 2000 4000 6000 8000 10000 12000 B ( G ) 8 7 5 ง 0 Fig . 15 ...
... concept all the questions which we used to characterize the are elec- trode problem . It was es- sential that we restricted Vr ( m / s ) Vr ( m / s ) 125 175 100 75 50 a ) 25 0 2000 4000 6000 8000 10000 12000 B ( G ) 8 7 5 ง 0 Fig . 15 ...
Page 239
... concept of sheath thick- ness , while the main task of the theory should be to arrive at its definition and its explicit calculation : and assume a discontinuous transition between the sheath and the rest of the plasma . The asymptotic ...
... concept of sheath thick- ness , while the main task of the theory should be to arrive at its definition and its explicit calculation : and assume a discontinuous transition between the sheath and the rest of the plasma . The asymptotic ...
Contents
W B THOMPSON Kinetic theory of plasma | 97 |
Topics in microinstabilities | 137 |
carrier mass | 159 |
Copyright | |
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Common terms and phrases
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