The three-photon absorption spectrum of the iodine molecule

D +-X resorance enhxxx-d three-photon excitation spectrum of iodine WBS observed by 5 CI~ intrxavity absorption technique\_ W&rational quantum numbers of D + X transitions are gven for every major spectral feature. The corresponding one-photon enhancement from the B state is evident from the one-pho

The three-photon absorption spectrum of benzene is discussed by means of molecular orbital calculations of allowed and vibronic three-photon intensities to S, and Ss. The coupling mechanisms responsible for vibronic absorption to these states are described and it is found that vibronic pathways pecu

A new absorption spectrum of the \(\mathrm{BCl}\) radical is obtained using the well known flash discharge technique in the vacuum UV region \(1400-1700 \AA\). Four new electronic states, three Rydberg and one valence, are established. The vibrational and partial rotational analyses are carried out.

The absorption spectrum of GeO, between 2000 and 300 Å, was recorded using the facilities of the SUPERACO synchrotron radiation in Orsay, France. The first three ionization limits, corresponding to the X 2 ⌺ ϩ , A 2 ⌸, and B 2 ⌺ ϩ states of the GeO ϩ ion, were confirmed at 11.2814, 11.42, and 15.048

An absorption spectrum near 4800 A was observed from flash photolysis of a mixture of Cr(CC& + hfo(CO& vapours, which is tentatively assigned to the CrMo molecule.

The absorption spectrum of heated SnO between 2000 and 300 A has been recorded using the facilities of the SuperACO synchrotron at Orsay, France. New bands have been observed which supplement the data on the previously known systems of SnO. Newly discovered Rydberg series have confirmed the four ion