Non-radiative decay of the benzene 1B2u and 3B1u states

Many but not al! bands of the 2600 A absorption system of benzene involving vibrational levels m&e than 3000 cm-l above the zerepoint level of the ,excited state are seen to be more or less diffuse when photographed under very high resolution This threshold lies almost exactly at the hkhest level ab

The possible role of valence isomers as intermediates in the unimolecular non-radiative relaxation ("internal conversion") of the S, state of benzene, including the fast channel 3 process, has been tested by irradiating the 260 nm absorption-system of 1,3,5trideuterobenzene and looking for isotopica

Absolute rate constants for radiative and for nonradiative decay from three single vibronic levels of isolated 1B2u benzene molecules are derived from experimental data. Both rate constants show sensitivity to the' vibrational state of the excited molecule. Their correspondence with the theory of vi

Values of triplet yields for dilute solutions of benzene in methylcyclohesnne, cyciohesane, methanol, ethanol, acetonitrile, perfluoro-n-hexane, and water, and also fluoreaccnce yields and lifetimes in perfluoro-n-hesane arc reported. The calculated rate constants for fluorescence and intersystem cr

Benzene is two-step photoionized with ArF laser radiation and the resulting mass-and photoelectron spectra obtained versus laser intensity. In agreement with previous work, benzene ionizes very inefficiently at this wavelength. Attempts to probe the rapid non-radiative relaxation of its 'B it, excit