Low-lying singlet states in the two-photon excitation spectrum of chrysene

The two-photon excitation spectrum of anthracene m solution IS reported from 29000 to 47000 cm-'. Two-photon alloued transitions to 1Bsa(35800 cm-'), 2Ag (38000 cm-l) and 3Aa (43000 cm-') are assgned by polanzanon measurements. These results, anth those from one-photon spectroscopy, agree with cakul

The twc-pholon excilaGon spslrum or the lin~ excited stare of anthracene in fluorene and biphenyl at 4 2 K has been i measured. Inlensily is induced inlo the origtn by the static dipole moment of fluorenc. and into b,, wbrons Ihrough coupltng to: an A, stale near 294IXl cm -'; Lhe nature of this A,

## AH-frons diphcnylhcxntrlcnc and diphcnyloctatctr~ene m solution show a very strong two-photon absorption beginning at about thu sarnc energy a~ the one-photon spectrum. This supports the postulated presence of n low-iying 'Ag clcctronic state.

## The resonance coherent antIStokes Raman scatte,mg spectra of chrysene in the fust exctted singlet and triplet state aEe generated The observed differences m wavenumber and mtenslty pomt out a changed molecular structure in the excited electromc states

A comparison of the one-and tvzo-nhoton absorption spectra of triphenylene in n-heptane single crystals at 1.6 K reveals that the lowest singlet state (Sl) &of IA> symmetry while the second singlet state (S2) has 'Ai symmetry, ir. contradiction with the comrnordy accepted assignment\_