C. D. BALL, F. C. DE LUCIA, Department of Physics, The Ohio State University, 174 W. 18th Avenue, Columbus, OH 43210; M. MENGEL, M. LOCK, B. P. WINNEWISSER, M. WINNEWISSER, Physikalisch-Chemisches Institut, Justus-Liebig-Universität, D-35392 Gieß en, Germany.

A new, liquid helium cooled collisional cooling cell has been constructed for use in spectral simplification experiments. The cell was cooled in a Janis vaporization cryostat and spectra were measured using a Bruker high resolution Fourier transform infrared spectrometer. Diagnostic tests of this cell using C₂H₂, N₂O, and CClF₃ injected into a helium buffer gas show that the cell can be a useful tool for future simplification experiments. The initial failures and later successes of these tests revealed important information on the required operational parameters. Near-infrared measurements of C₂H₂ seemed to show only moderate cooling of the gas. However, in the overtone region, the S/N ratio was not adequate for useful diagnostics, and the spectrum was only observed for excessive injector flow rates. In the mid-infrared region, measurements of N₂O yielded very acceptable rotational temperatures (T_rot=76 K for T_cell=50 K). Measurements of CClF₃ lines were taken to demonstrate the capabilities of collisional cooling with this system for spectral simplification.