Emission spectrum of nitrous oxide in a helium afterglow

we reinvestigated the overtone spectrum of nitrous oxide ( 14 N 2 16 O) using intracavity laser absorption spectroscopy, observing seven new bands in the spectral range 10 650 -12 200 cm Ϫ1 and improving the signal-to-noise ratio in two others previously reported using Fourier transform spectroscopy

The emission spectrum produced from the flowing He afterglow reaction of CBr 4 has been re-examined. The a 31I 0 ~ ~ X 1~ + emission subsystem of CBr + is identified in addition to the a3IIl-; X 1~1+ subsystem reported previously. The vibrational constants of the a3EIo + substate are estimated to be

The $(A 211u-X \*I%& emission band system was observed and viirationally analyzed in the 350-670 nm spectral range from a flowmg hehum afterglow study of the S$lz reactlon. Molecular constants for the $(A\*& X \*llgs) states were determined and compared unth reported photoelectron data.

Significant nitrous oxide (N20) emissions have been observed from coal and oil burning power plants, but not from industrial gas flames, even when they are doped with an equivalent amount of fuel nitrogen. The unknown mechanism by which this N20 forms has considerable importance in determining the i

It is suggested that the electron-ion recombination of He; populates to some extent the He2 B-core states of Mulliken, and that subsequent vertical transitions terminate on the dissociating slopes of normal A-core curves leading to He(23P) and the 1.08 cr radiation. It is further suggested that such