Willis E. Lamb, Jr: A Festschrift on the Occasion of His 65th Birthday |
Contents
A SEMICLASSICAL APPROACH TO RADIATION PROBLEMS | 3 |
S G Thornhill D ter Haar Langmuir Turbulence and Modulational Instability | 43 |
P R Berman Effects of Collisions on Linear and Nonlinear Spectroscopic Line Shapes | 101 |
Copyright | |
10 other sections not shown
Common terms and phrases
absorption coefficient active atom amplitude approximation beam calculation coherent collisions component contribution corresponding Coulomb decay density matrix derived detector discussed dispersion relation distribution Doppler E₁ E₂ effect electric dipole electron energy levels equation of motion EXAFS excitation experimental factor frequency given Hamiltonian inelastic collisions integral intensity interaction ion-sound JETP k₁ kernel Lamb Landau damping Langmuir solitons Langmuir waves laser Lett line shape linear Lorentzian momentum muonium n₁ n₂ neutron non-linear obtained optical oscillating P₁ parameters particle perturbation perturbation theory phase photon Phys Physics plasma plasmon polarization population positronium probe problem propagator quantum resonance result rotating saturation spectroscopy saturator wave scattering shift solitons solution spectral spectrum spontaneous emission synchrotron radiation theory transformation transverse Tsytovich v₁ v₂ values velocity velocity-changing w₁ wave function wavenumber width Willis X-ray zero