15min:

C. HARIDASS, E. DOWDYE, A. AW-MUSSE AND P. MISRA, Laser Spectroscopy Laboratory, Department of Physics and Astronomy, Howard University, Washington, D. C. 20059.

Rovibronic spectra of the fundamental bands of ³2S¹6O₂, ¹4N¹6O and its isotopomers of HCl (¹H³5Cl and ¹H³7Cl) have been recorded using Nicolet Magna-IR 550 Fourier Transform Infrared spectrometer in the region 400-4000 cm^-1 spectral region, under quasi-static conditions, when the sample gas was passed in turn through tubings of aluminum, copper, stainless-steel and teflon. The absorbances

were measured for the individual roational lines corresponding to the three modes of vibration (₁-symmetric stretch, ₂-symmetric bend, ₃-antisymmetric stretch) of the SO₂ molecule for the pressures in the range 50-250 Torr range. The absorbances were also measured for the rotational lines of the isotopomers HCl for pressures in the range 100-1000 Torr range; and for the NO molecule in the range 100-300 Torr. A plot of absorbance versus pressure for all the observed transitions showed a linear relationship, thereby validating Beer's law for the chosen pressure ranges. A measurable difference in the absorbance peaks was observed for HCl and NO confirming the interactions of these molecules with the corresponding tubing materials. Quantifiable changes in the absorbance peaks were not observed for the SO₂ moleucles flowing through the different tubing materials. A detailed and systematic analysis pertaining to the observed concentration changes of the trace gases studied will be presented.