On the interpretation of the photoelectron spectrum of NiCO−

The inner-valence (20-36 eV) photoelectron spectrum of N, is interpreted by comparing with various spectra (such as absorption, N+-yield, fluorescence-yield, and core-level photoelectron spectra). This comparative study conflrms the previous assignments on the bands at 25.3 and 29.0 eV and clarifies

Rcccivcd 23 Dcccmbcr 1981; in final form 23 rcbruary I982 Ab initlo and lNDO/S ~~lculal~ons WAC carried OUI on borazinc and the boraunc radical ation. ~hc rust three bands of the photoclcctron Spectra arc Well predicted from the molecular orbllnl struclurc of the nculra1,dlscrcp.mc~e.s for the In&r-

## An inrerpreistion of certain features in the vibrational pattcm of the 11.5 to 13.0 eV photoelectron spectrum of bcnzene in terms of a Jahn-Teller effect Is presented. This supports Lindholm's orbiral assignrncnt of the ionization processes in this'region. A change iri the assignment of some of

## Abstract The helium (I) photoelectron spectrum of C(CN)~4~ curiously displays ionizations only in two small windows from 13.8 eV to 14.5 eV and from 14.8 eV to 15.5 eV, respectively. A tentative assignment of the numerous overlapping bands – based on a spectroscopically parametrized LCBO MO mode

## Abstract The He(I~α~) and He(II~α~) spectra of tetrafluorobutatriene **3**(F) have been recorded for comparison with those of butatriene **3**(H). __Ab initio__ double‐zeta basis self‐consistent field (SCF) and configuration interaction calculations on butatriene show that, contrary to previous

The photoelectron spectrum of carbon tetrafluoride is compared with X-ray emission spectra and with molecular orbital calculations. The ionization energies at 22.2 and 25.1 eV are related to the 2t2 and 2al orbitals, respectively. With this result all "molecular orbital" states of CF$ are identifie