Pressure broadening, lineshapes, and intensity measurements in the 2 ← 0 band of NO

Lineshape and intensity measurements were made on the overtone band ( v = 2 ← 0) of nitric oxide (NO) using a tunable difference-frequency laser system. Self- and N 2-pressure broadening coefficients were obtained at 296 K, and a small amount of collisional, or Dicke, narrowing (which reduces the Do...

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Bibliographic Details
Published in:Journal of molecular spectroscopy 1985-01, Vol.114 (1), p.132-147
Main Authors: Pine, A.S, Maki, A.G, Chou, N.-Y
Format: Article
Language:English
Subjects:
Atomic and molecular physics
Exact sciences and technology
Intensities and shapes of molecular spectral lines and bands
Molecular properties and interactions with photons
Physics
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Summary:Lineshape and intensity measurements were made on the overtone band ( v = 2 ← 0) of nitric oxide (NO) using a tunable difference-frequency laser system. Self- and N 2-pressure broadening coefficients were obtained at 296 K, and a small amount of collisional, or Dicke, narrowing (which reduces the Doppler width by ∼9% at 50 Torr) was also evident. The pressure broadening observed for the 2 Π 3 2 transitions was larger than that of the 2 Π 1 2 for corresponding J by about 7%, so an empirical scaling law model was fit to the broadening coefficients to determine the role of interstate (spin-flipping) collisions. A small collision-induced asymmetry in the Λ-doublet transitions of the 2 Π 1 2 level was also observed. The measured line intensities yield an integrated band intensity of 1.878( −40 +90) cm −2 atm −1 at 296 K and a Herman-Wallis F factor which determines the relative signs of terms in the dipole moment expansion.
ISSN:0022-2852
1096-083X
DOI:10.1016/0022-2852(85)90343-1