The He I photoelectron spectrum of TeO

The He I photoelectron spectrum of cyanocyclopropane has been revisited both experimentally, under high resolution and high sensitivity, and theoretically by ab initio third-order algebraic diagrammatic construction (ADC(3)) Green function calculations. The agreement between theory and experiment is

A IIc I photoclcctron spcctrurn has been rnca~cd for a ~nisturc of NO2 and N204 tn the &W!OUS ph.e at ;f ternpcraturc of about -60°C'. Some pllotocIc~tron bad5 attributable to Nz04 have been obxrvcd below about 16 cV.

The photoelectron spectrum of atomrc todme has been observed by photodlssociation of molecular lodme with an argon 101-1 Iascr. The relative mtenslty of the lodme atom slgnal IS strongly dependent on the pressure of added zutrogen. The resubs suggest that photol>s~s IS a feasible altcmatnc means of

He( 1) photoelectron spectra of the short-lived molecule InFgenerated the chemical bonding are obtained from the experimental results. The Slater calculations. in a new solid-state reaction are presented. Details about interpretation is supported by ab initio Hartree-Fock-

The fluorine atom reaction wvirh CH3Q provides rhe CHzCl free radical for observarion of a srructured phoroelectron band ar 8.88 k 0.01 eV terrical ionizadon energy with 1020 5 40 cm-l vibrational intervals. This spacing is appropriare for the C-Cl fundamental in CHICI\* based on increase (p-p) n bo

The He I (21.2 eV) and He II (40.8 eV) photoelectron spectra of ozone have been recorded under high resolution. Ionization potentials are identified at 12.75 eV, 13.02 eV, 13.57 eV, and two broad bands are centered at 17.7 eV and 20.1 eV. The experimental results and the orbital assignment are not c