Rydberg-Rydberg transitions of SiF in the near infrared

Many n = 6 + 5 and 7 t 6 Rydberg transitions of the oxygen atom have been detected in absorption using infrared diode lasers and twenty-one resolved or partially resolved lines have been accurately calibrated. Line intensities are in agreement with published oscillator strengths. Recent observations

Fluorescence-detected optical-optical double resonance (OODR) spectroscopy is used to determine the rclatlve transition intensities from the 3pn CTI. r,'=O state to the n\*=6 supercomplex of NO. The results are in good agreement with the multichannel quantum defect theory analysis of Frcdin et al. (

Two Rydberg series are found in the electronic absorption spectra of the three difluorobenzenes which conveige to the lowest ionization potential. Superimposed to the first ionization continuum bands belonging to a Rydberg series related to a higher IP are found. The problem of its assignment is dis

Prominent fcaturcs of the vxuum ultraviolet spectrum of ethylene sulphide have been assigned to three Rydbcrg scrics. All rhrce convege to an ionization limit of 9.051 eV (73 000 cm-' ). The Rydberg orbitals of each series are classified xcordins to the magnitude of the qwntum defect (6).

We report observations and analyses of bands in the spectra of the ArH and ArD molecules due to emission from the 4 f Rydberg complexes. For ArD, the observed bands are 4 f r 5s and 4 f r 3dl for all three components l Å 0, 1, and 2 of the 3d state. These give direct information on all 14 spin-orbit