15min:

BOR-CHEN CHANG, Department of Chemistry, National Central University, Chung-Li, Taiwan 32054; CHRISTOPHER FOCKENBERG AND TREVOR J. SEARS, Department of Chemistry, Brookhaven National Laboratory, Upton, New York 11973-5000.

High resolution spectra of the methylene (CH₂) b¹B₁<-a¹A₁ electronic transition in the vicinity of 1 µ m have been obtained using a new diode-laser-based spectrometer. Interest in studying CH₂ comes from the complicated interplay between spin-orbit interaction and Renner-Teller effects in the a¹A₁, b¹B₁, which become degenerate at linearity and the background X³B₁ states. This results in a highly perturbed spectrum. The spectroscopic investigations of levels near to the barrier to linearity of the singlet states is crucial to help unravel the perturbation mechanisms in this system as well as to refine the potential energy surfaces of CH₂. Here, we report the first CH₂ electronic spectrum in the region between 1.016µ m and 0.993µ m. The upper levels of the observed structure are approximately just 1000cm^-1 above the barrier to linearity. This spectrum should reveal important information on the internal dynamics of CH₂. Additionally, we demonstrate the general utility of near infrared diode lasers in high resolution spectroscopy. Progress on the analysis of this spectrum and the experiment will be presented.

Acknowledgments :

The experimental work was carried out at Brookhaven National Laboratory under Contract No. DE-AC02-76CH00016 with the U.S. Department of Energy and supported by its Division of Chemical Sciences, Office of Basic Energy Sciences. BCC also thanks National Science Council, Taiwan for its support of this work under Grant No. NSC86-2112-M-008-032-T.