Theoretical photoelectron spectroscopy of the nitrite ion

We have recorded the photoelectron spectrum of TeO-using a hot-cathode discharge ion source and a negative ion photoelectron spectrometer. The adiabatic electron affinity of TeO is determined to be 1.697+0.022 eV. The negative ion parameters determined in this work are: wc(TeO-) = 690+ 80 cm-', rh'

We have recorded the phowAeelron spectrum OC P; using a Penning ion source and a negative ion phowAoctron sprc~rome~er. The adinbalic electron arlinily of Pz is determined IO be 0.58920.025 eV. The negalive ion parameters drlermined in this work are: o:(P; ) = 64OA 50 cm-'. R:(P; ) -1.979\_tO.O10 A.

We report the 488 nm photoelectron spectra of the mass-selected Cr2H-and Cr& anions. The electron affinity of Cr2H is 1.474 k 0.005 eV. Frequencies are reported for all three vibrational modes in both the neutral molecules and the anions, and their structures and bonding properties are discussed.

Cl 3p and Ni 3d ionization energies are computed at the complete-active-space self-consistent-field level. The calculations yield 224 ion states within 25 eV of the neutral ground state. Of these, only about 11 are predicted to contribute sizably to the photoelectron spectra. The calculations show t