Infrared Diode Laser Detection of the ν1 Fundamental Band of BrCN+

The 1 band of ClBO has been recorded using infrared diode laser spectroscopy. The molecule was produced by reacting oxygen atoms, produced in a microwave discharge containing an O 2 /He mixture, with BCl 3 . Thirty-three lines of the 35 Cl 11 B 16 O isotopomer and 32 lines due to the 37 Cl 11 B 16 O

The vibration-rotation absorption spectra of the C 3 S molecule were studied using a tunable infrared diode laser spectrometer. The n 1 fundamental and n 1 / n 5 0 n 5 hot bands were measured between 2046 and 2067 cm 01 . The C 3 S molecule was produced by a glow discharge in a flowing mixture of CS

The n 3 fundamental band (C-N stretch) and four associated hot bands (01 1 1-01 1 0, 10 0 1-10 0 0, 02 0 1-02 0 0, and 02 2 1-02 2 0) of natural 79/81 Br 12 C 14 N have been recorded and analyzed in the 4.8-mm region using an FTIR spectrometer. Analyses of the same hot bands, previously recorded usi

The infrared spectrum of H 3 O ϩ in positive column discharges of H 2 /O 2 gas mixtures has been studied by a difference frequency laser spectrometer. The 1 fundamental band of H 3 O ϩ was identified in the region of the strong 3 Ϯ 4 0 Ϯ bands. Molecular constants were obtained by the least-squares

The infrared diode laser spectrum of the n 2 / n 5 0 n 2 hot band of acetylene has been observed within the discharge plasma of acetylene diluted in He. The concentration of acetylene in the n 2 state was modulated by applying a few kHz of ac current, and the spectrum of the hot band was recorded se