Observation of hyperfine structure in the electronic Raman spectrum of atomic iodine

Hyperfine structure has been obseervcd in laser emission from CFaI and CzFjI photodissociation lasers. Constant magnetic fields affect the time behavior of the emission by changing the relative gains of the hypcrfme transitions. Time-varying fields usually present in photodissociation lasers further

The Zpa, u=O, N=2-lsa, v= 18, N=3 transition in Hz hasbeen observed at 156632.8 MHz. This transition shows a cbaracteristic structure which we assign in terms of hyperfine, fme and electronic g/u symmetry-breaking effects.

The J Å 1-0 rotational transition of 14 NF 3 has been measured at high resolution in a pulsed jet Fourier transform microwave spectrometer. The transition is split into three major components due to the nuclear quadrupole coupling constant of the 14 N nucleus; these in turn are further split into hy

Ging the method of polurnation CARS, modification of the bant contour of the solvent molecnles (hexamethylphosphortriamide, HVP'1) was observed in the presence of the solvated electron (e). The effect is only just observable for C-H sbration modes. Spectral parameters of the band due to the interact