Formaldehyde instrument development and boundary layer sulfuric acid: implications for photochemistry
This work presents the development of a laser-induced fluorescence technique to measure atmospheric formaldehyde. In conjunction with the technique, the design of a compact, narrow linewidth, etalon-tuned titanium:sapphire laser cavity which is pumped by the second harmonic of a kilohertz Nd:YAG la...
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Georgia Institute of Technology
2008
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Online Access: | http://hdl.handle.net/1853/22683 |