MAGNETIC QUENCHING OF FLUORESCENCE IN $NO_{2}$

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1973

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Ohio State University

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The fluorescence from $NO_{2}$ excited by the 4880 \AA line of an argon ion laser has been observed to be partially quenched by the application of a magnetic field. The total fluorescence intensity as a function of magnetic field strength is given by $$ I(H)=\frac{I_{o} A}{A+H^{2}}+B $$\\ where A and B are constants. The constant A is independent of pressure over a rather wide range and increases with decreasing pressure at pressure below 1 micron. This is consistent with a new collisional quenching channel being opened by the applied field. The fact that the constant B is non-zero indicates that more than one state is excited by the laser, and that not all states are magnetically quenched.

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Author Institution: The James Franck Institute and Department of Chemistry, The University of Chicago

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