Nonlinear Waves in Waveguides: With Stratification |
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Page 15
... density varies exponentially with distance . We assume that the background temperature depends weakly on the altitude . Then the density of the atmosphere decreases exponentially with the height z by ĕ = go exp ( −z / H ) ( 2.18 ) ...
... density varies exponentially with distance . We assume that the background temperature depends weakly on the altitude . Then the density of the atmosphere decreases exponentially with the height z by ĕ = go exp ( −z / H ) ( 2.18 ) ...
Page 71
... density matrix in Sect . 3.3 , Xt + ( v , V ) x = −e ( Ɛ ' , dƒ ° / dp ) = F . The oscillations of the electric charge density determine Ɛ ' ( 4.9 ) div ε ' = 4πе [ dpx . ( 4.10 ) Supposing that the electromagnetic field represents a ...
... density matrix in Sect . 3.3 , Xt + ( v , V ) x = −e ( Ɛ ' , dƒ ° / dp ) = F . The oscillations of the electric charge density determine Ɛ ' ( 4.9 ) div ε ' = 4πе [ dpx . ( 4.10 ) Supposing that the electromagnetic field represents a ...
Page 107
... density with increasing height automatically leads to a decrease in the collision number and an increase in the molecular mean free path . Since the mean free path is ~ 1 / noo , where n is the molecular concentration and σo is the ...
... density with increasing height automatically leads to a decrease in the collision number and an increase in the molecular mean free path . Since the mean free path is ~ 1 / noo , where n is the molecular concentration and σo is the ...
Contents
Introduction | 1 |
The Discrimination and Interaction | 12 |
223 | 19 |
Copyright | |
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amplitude approximation atmosphere boundary conditions calculation CKdV coefficients components contribution coordinate denote density density matrix dependence derivation described determined dielectric dimensionless dispersion branches dispersion equation dispersion relation dissipation distribution function dynamical variables effects electric field electromagnetic electron evolution equations Fiz.Atm.Okean frequency given hydrodynamical inhomogeneity initial conditions integration internal waves ion-acoustic waves Ionosphere iteration KdV equation kinetic Langmuir waves layer linear longitudinal waves magnetic field matrix mean field medium method mode interaction Moscow Nauka nonlinear constants nonlinear terms Nonlinear Waves nonlocal oscillations particles perturbation theory physical plasma waves problem projection operators quasisolitons region resonance Rossby waves S.B.Leble scale Sect small parameters soliton solution spectral SSSR stationary subspaces substitution T₁ temperature thermoclyne thermoconductivity thermospheric three-wave transformed turbulence vector velocity vertical w₁ wave propagation wave vector waveguide propagation wavelength