The b1Σ+(b0+)→X3Σ−(X10+, X21) and a1Δ(a2)→X3Σ−(X21) transitions of TeO

Emission spectra of the b 1 ⌺ ϩ (b0 ϩ ) 3 X 3 ⌺ Ϫ (X 1 0 ϩ , X 2 1) and a 1 ⌬(a2) 3 X 2 1 transitions of AsI have been measured in the near-infrared spectral region with a Fourier-transform spectrometer. The arsenic iodide radicals were generated and excited in a fast-flow system by reaction of arse

Emission spectra of the a 1 ⌬(a2) 3 X 2 1 and b 1 ⌺ ϩ (b0 ϩ ) 3 X 3 ⌺ Ϫ (X 1 0 ϩ , X 2 1) transitions of SbF, SbCl, SbBr, and SbI have been observed in the near-infrared spectral region. The antimony halide radicals were generated and excited in a fast-flow system by reaction of antimony vapor (Sb x

The b 1 ⌺ ϩ (b0 ϩ ) 7 X 3 ⌺ Ϫ (X 1 0 ϩ ,X 2 1) transitions of SbH and SbD have been studied by laser-induced fluorescence measurements. Ground state SbH(SbD) radicals were generated in a fast-flow system by reaction of microwave-discharged hydrogen (deuterium) with antimony vapor. Vibrational levels

First gas phase spectra of the nitrogen monoiodide radical NI are reported. The b 1 ⌺ ϩ (b0 ϩ ) 7 X 3 ⌺ Ϫ (X 1 0 ϩ , X 2 1) transition of NI has been studied by laser-induced fluorescence measurements. Ground state NI radicals were generated in a fast-flow system by reaction of microwave-discharged

Emission spectra of the 0-0 and 1-1 bands of the a 1 D(a2) r X 3 S 0 (X 2 1) transitions of SbH and SbD have been observed in the near-infrared spectral region near 1.62 mm. The antimony hydride radicals were generated and excited in a fast-flow system by reaction of antimony vapor with hydrogen or

## Emission spectra of the b transition of phosphorus iodide have been measured with a high-resolution Fourier-transform spectrometer. The PI radicals were generated and excited in a fast-flow system by reaction of phosphorus vapor (P x ) with iodine and microwave-discharged oxygen. Four sequences,