Photoionization cross sections in the valence electron approximation. I. Linear molecules

Theoretical and experimental values for the relative band intensities in the HeI-photoe!ectron spectra of ei$ltccn linear molecules are compared. Qualitative rzles concerning band intensities arc discussed. \* Part 12 of "Theory and applications of photoelectron spectroscopy". Part 11 see ref. [ 171

The photoionizatlon cross sections and the asymmetry parameters for the outer valence orbitak of N2 and 02 have beeu calculated for the W regon. The static potential of residual ions was used to determine the continuum wavefunction. The coupled equations for the partial wav'ss are solved numencally

Within the usual assumptions associated with sudden-approximation analyses of photoelectron spectm. it is shown that unrelaxed subshell cross sections calculated on the basis of unit overlap between initial-and final-state-passive electrons implicitly include the effects of both one-electron and mul

Total photoionization, cross sections for H2 are ulculared in the random phase approximation (RPA) through a nur;lerical analytic coniinuation procedure applied to the polarrability for complex val&s of the frequency. The reprcsentition of the polarizability that is required is obtained from 3 discr

Vlbroruc p~rlal cross sections assoclaed with the formatron of 0: bJZgand B 'T; ~13~s (3og') arc obrnmed m chr threshold region usmg timeaf-tlighr pholoclectron spccrroscopy assoclxted with pulsed synchro!ron rsdlstlon The b cross section reveals 3 strong resonsncr around 19 cV, prcv~ouslp observed