Abstract
THE action of light on nitrous oxide has been studied by several workers in recent years. It was found by Wulf and Melvin1 that N2O, when irradiated by light of 2350 A., broke up into NO and N. Later on, Dutta2 studied the absorption spectrum, and found that light was continuously cut off from a long wave-length limit 2750 A., and showed that the energy equivalent of this wave-length accounts for the dissociation of N2O into NO and N, both in the normal states. I extended this work3 in the Schumann region, and two more continuous absorptions were found beginning from the long wavelength limits 1850 A. and 1580 A., separated by a region of transparency ; it was shown that these further absorptions are responsible for raising N, one of the products of dissociation, to the metastable states 2D and 2P respectively. In short, the absorption of light by N2O takes place in the following steps.
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References
Wulf and Melvin, Phys. Rev., 39, 180 ; 1932.
Dutta, Proc. Roy. Soc., A, 138, 84 ; 1932.
Sen-Gupta, Bull. Acad. Sci. U.P., 3, 197; 1934.
Henry, NATURE, 134, 498; 1934.
Herzberg and Sponer, Z. Phys., 26, 1; 1934.
Sen-Gupta, Z. Phys., 88, 647; 1934.
Sen-Gupta, Proc. Roy. Soc., A, 146, 824; 1934.
Jenkins, Barton and Mulliken, Phys. Rev., 30, 150; 1927.
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SEN-GUPTA, P. Photodissociation of Nitrous Oxide. Nature 136, 513–514 (1935). https://doi.org/10.1038/136513a0
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DOI: https://doi.org/10.1038/136513a0
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