Visible Wavelength Chemiluminescence Initiated by CO2 Laser Radiation.
Abstract
Visible chemiluminescence is emitted when gaseous mixtures of encapsulated metals (SiH4, Ge(C2H5)4, Sn(CH3)4, Pb(CH3)4, Bi(CH3)3), SF6, and various oxidizers (N2O, NO2, NF3) are subjected to a 20J pulse (fwhm approx. 1 microsecond) of CO2 10.6 micrometer laser radiation. The wavelength dependence of these emissions was recorded photographically with a 1m JA spectrograph. The various band systems for the excited diatoms were identified; for example, S*2, MF*, MO*. The temporal emission sequence was recorded with a four-channel, wide-band photometer, and a 14-channel narrow-band spectrophotometer (band pass approximately 70 A). The magnitude of luminosity was measured as a function of the total pressure and the composition of the mixtures. For several combinations relatively narrow spikes (fwhm approx. 10 microseconds) were observed. For CuF* (the copper was inserted in the form of a salt or a metal foil) very large vibrational temperatures in the upper electronic states were deduced. These features, and the appearance of some bands with high vibrational quantum numbers in the ground electronic state, suggest that inversions may have been produced by this technique. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Apr 30, 1976
- Accession Number
- ADA025002
Entities
People
- Ezra Bar-ziv
- Simon H. Bauer
Organizations
- Cornell University Department of Chemistry and Chemical Biology