High resolution electronic spectroscopy on the OH-Ar van der Waals complex

Stimulated emission spectroscopy is used to measure the frequencies of the van der Waals bending and stretching modes in the ground electronic state of the OH-Ar complex correlating with OH(X 'II) +Ar( 'S,). The results are compared with those predicted using an ab initio potential energy surface. E

The rotationally resolved spectrum of the @ band of the S, + So electronic transition of the benzene-N, van der Waals complex has been recorded and 119 transitions assigned. The G,H,.N, complex, produced in a pulsed molecular beam, was detected by mass-selected two-photon twecolour ionization employ

Van der Waals bending rovibrational transitions of the Ar-CO complex were observed between 308 and 383 GHz using submillimeter-wave absorption spectroscopy in a pulsed supersonic jet. The submillimeter radiation was generated by a phase-stabilized backward wave oscillator source. Fourteen transition

AAer an assessment of the equilibrium properties of Arz (D,c 75 cm-', 4% 7.32 bohr) as determined in supermolecular coupled-pair functional calculations in the limit of high angular momentum basis functions, the potential energy surface for interaction of an Ar atom with the CO molecule is presented

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

The fluorescence excitation spectra obtained on further complexation of perylene-benzene by other species m quatemary supersonic expansions have been used to confirm a number of important structural assignments in molecular complexes. The interpretation of spectra of species such as perylene-Ar, is