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KEVIN O. DOUGLASS, GORDON R. BROWN, BRIAN C. DIAN, JASON J. PAJSKI AND BROOKS H. PATE, Department of Chemistry, University of Virginia, McCormick Rd., P.O. Box 400319, Charlottesville, VA 22904.
IR-chirped-pulse FTMW Double resonance spectroscopy is used to examine the vibrationally excited isomerization dynamics of cyclopropanecarboxaldehyde (CPCA). CPCA has two conformers, cis and trans , which are both populated in the supersonic expansion. The barrier to cis
trans interconversion was found to be 1540\pm144~cm-1, where the trans form is more stable by 10\pm20~cm-1 than the cis . An in depth investigation into the cis to trans isomerization dynamics of CPCA for several C-H stretching modes will be presented. We will demonstrate the ability to record isomerization dynamics for CPCA as the laser scans using the IR-Chirped-Pulse FTMW Double resonance technique, which has been recently enhanced for improved sensitivity. Our broadband 7.5--18.5 GHz Chirped-Pulse FTMW spectrometer records the full rotational spectrum for every 0.01~cm-1 step of the laser scan frequency. The improved sensitivity allows for detection of the many weak vibrationally excited rotational transitions. The lineshape profile of the excited state rotational spectrum is used to determine the cis - trans isomerization rate. The dynamics and resulting lineshape profiles vary depending on which infrared frequency is used to prepare the molecule.