15min:

ROMAN SCHMIED, PIERRE CARCABAL, ADRIAAN M. DOKTER, VINCENT P. A. LONIJ, KEVIN K. LEHMANN AND GIACINTO SCOLES, Department of Chemistry, Princeton University, Princeton, NJ 08544.

We present high-resolution ultraviolet spectra of various benzene isotopomers and their dimers in helium nanodroplets in the region of the first Herzberg-Teller allowed vibronic transition ¹\!\mathrmB_2u\!\! ¹\!\!\!\!\mathrmA_1g 6₀¹ (a.k.a. the A₀⁰ transition) at 260 nm. Spectra were recorded in beam depletion and laser-induced fluorescence excitation. Unlike for many larger aromatic molecules, the monomer spectra consist of a single ``zero phonon'' line, blueshifted by about 30 cm^-1 from the gas phase value. The rotational moments of inertia of C₆H₆ are found to be at least 6 or 7 times larger than in the gas phase. The dimers present the same vibronic fine structure (though modestly compressed) as previously observed in the gas phase. The fluorescence lifetime and quantum yield of (C₆H₆)₂ are found to be equal to those of C₆H₆, implying substantial inhibition of excimer formation in the dimer in helium nanodroplets.