Rotational coherence spectroscopy of 9,9′-bianthyrl and its van der Waals complexes with Ar and H2O

Rotational coherence spectroscopy has been used to measure rotational constants for four isotopomers of the aromatlc-aromatic dimer petylene-benzene. Possibilities for the vibrationally averaged dimer geometry have been deduced from the measured values. In the geometries the benzene moiety is close

Rotational coherence spectroscopy involving polarized, time-correlated single-photon counting techniques has been used to measure the excited-state structures of hydrogen-bonded complexes between PPD and water at the 1: 1 and I : 2 levels of aggregation. Structure determinations involved comparison

We report high-resolution infrared vibrational-rotational spectra of the weakly bound complexes N 2 O-H 2 O and N 2 O-D 2 O in the higher frequency N 2 O stretching mode region (ν 3 = 2223.756693(124) cm -1 ). The measurements were carried out using a free jet expansion in combination with a lead sa

Laser-induced fluorescence spectra of Ne-and Ar-aniline complexes were observed with a resolution of 0.04 cm-l . By a simulation analysis of the rotational strucfures, the distances between the rare-gas atom and the aromatic ring of aniline were found fo be 3.35 f 0.04 and 3.50 + 0.04 4 in the X 'Al

One-color resonance-enhanced two-photon ionization spectra of jet-cooled 4-fluorostyrene van der Waals complexes with Ne, Ar, Kr, Xe are reported. The measured spectra display discrete structure and allow the identification of electronic spectral shifts as well as stretching and bending frequencies