Isotope dependent predissociation in theC1Σ+,v=0andv=1states of CO

Two laser spectroscopic investigations were performed on the C 1 S / -X 1 S / (1,0) and (0,0) bands of CO. In the first experiment, using 2 / 1 resonance-enhanced multiphoton ionization, information on highly excited rotational states up to J É 50 was obtained. In the second experiment, application

We report new potential energy curves for the X 1 + and A 1 states of the CO molecule by employing the realistic extended Hartree-Fock approximate correlation energy model for diatomics with inclusion of the united-atom limit (EHFACE2U). Special care has been taken to describe the A 1 potential maxi

The rotationally resolved absorption band of CO observed by optogalvanic spectroscopy between 16200 and 16300 cm-' was identified as the Q branch of the L'-B 'Z+ (u' unspecified-u" = 0) band. The molecular constants of the L' (v) level were determined as r,= 103211.81 kO.44 cm-', B,= 1.7535f 0.0048

A new singlet-singlet absorption band between Rydberg states of the nitrogen molecule was studied by near-infrared diode laser spectroscopy in the 1.3 mm region. An analysis was made for the band to establish line assignments and determine molecular parameters for both the lower and the upper vibron