The C3 radical: A theoretical study of the electronic spectrum of C3 via the equations of motion method

The excited states of the HNO radical slave been studied using the equations of motion method. These ulcuktions confirm the presence of a low-lying 'A" state at 5485 cm", which lies between the 'A' ground state and [A" excited state..

## Ab initio confgumtion interaction crdculations for some Iowv-lying electronic states of the ditiorocabene radical (CCh) h&e been Mied out. The UV absorption band st 330 nm (3.76 eV) obtained by the puke radioIysis experiment is confiiect and assigszed to the 'Al -IBt txmsition. The c&t&ted tran

The electronic spectrum of thiophene has been studied using multiconfiguration second-order perturbation theory and extended AN0 basis sets. The calculations comprise four singlet valence excited states and the 3s3p3d Rydberg series. The lowest triplet states were included and some n-n\* and n-ti st

The electronic spectrum of biphenyl in the energy range up to 6.0 eV has been studied using multiconfigurational secondorder perturbation theory (CASPT2) and a basis set of ANO type, including polarization functions on all carbon atoms. The calculated spectrum gives conclusive assignments to all val

The electronic spectrum of planar 2,2':5',2"-terthiophene has been studied using multiconfigurational second-order perturbation theory. Four valence states are located below the first dipole-allowed Rydberg state. The computed excitation energies (11B2:2.86 eV; 21A]: 3.71 eV; 21B2:4.44 eV; 31A~: 4.9