Application of the MC SCF method to the π → π* excitation energies of ethylene

It is shown that the excited singlet ($8 o --) state (v) of planar ethylene in both the Llarkee-Fdck zn& z-electron configuration interaction descriptions is quite diffuse. The extent of the F-orbital in the ii-direction as measured by (22) is 42 a$ in the V state as compared to 2.7 a; in the corres

Ab initio calculations have been carried out for the T(3B,u) and V('BIu) states of ethylene in a planar nuclear conf@ration. A "double-zeta" gaussian basis, augmented by diffuse functions, was used. A wide variety of configuration interaction wavefunctions (including as many as 1605 configurations)

The vertical and adiabatic excitation energies between the ground and lowest two triplet states of acrolein were studied using ab initio correlated wavefunctions. A double zeta basis set was used in the configuration interaction calculations and each configuration expansion included about 6000 deter

The electron impact excitation functions of the 1 3Blu and l l Blu ~r -\* 'Jr" states of ethylene are measured. The triplet excitation function has a broad peak near 6.5 eV that is attributed to the 'rr-I('rr ~ )2 anion state, and the singlet excitation function displays sharp structure near thresho

A srmphtied method to calculate the excitation spectra of n-electron systems is proposed. The method is based on the assumptton that a "cluster" approxrmation can be apphed to exctted states. It is demonstrated that. for the low-lying triplet and opttcally allowed states of butadtene, hexatriene and