Atomic Collisions and SpectraProblems after each chapter |
Contents
CHARGEDPARTICLE COLLISIONS | 3 |
CALCULATION OF INTERACTION PARAMETERS | 9 |
CALCULATION OF THE PHASE SHIFTS | 16 |
Copyright | |
15 other sections not shown
Common terms and phrases
accordingly adiabatic alternative amplitude analogous angular momentum asymptotic atom base pair Born approximation boundary conditions calculation central potential Chapter closed channels coefficients collision complex considered continuum contribution coordinates core correlation corresponding Coulomb field coupling cross section curves defined dipole discrete discrete spectrum effect eigenchannels eigenfunctions eigenstates eigenvalues elastic scattering expression Fano fragmentation channels H₂ incident particle initial integral ionization threshold J₁ Jost functions levels matrix elements momentum transfer multichannel normalized per unit obtained orbital oscillator strength parameters partial wave perturbation phase shift photoabsorption photodetachment photoelectron photoionization photon Phys potential v(r problem procedure quantum defect quantum numbers R-matrix r₁ r₂ radial distances radial function range region represents resonance scattering length Schrödinger equation short-range interactions Slater determinants solution spectra spectrum spherical spin superposition target tion transformation transition values vanishes variational wave function Wronskian yields zero