Sonoluminescence energy is mainly chemical, according to a new set of experiments at the University of Illinois. Yuri Didenko and Kenneth Suslick quantified the energy consumption during sonoluminescence, the conversion of ultrasonic waves into picosecond light pulses via rapid oscillations of bubbles in a liquid. They found that, during the compression phase, a bubble’s interior gets hot enough to dissociate many gas molecules and initiate a furious session of chemical reactions. The researchers carefully monitored the reactant products—mostly nitrite ions (NO− 2), hydroxyl radicals (OH•), and light—of a single bubble of air in a bath of water subjected to ultrasound. They found that about 100 times more energy goes into chemical reactions than into light. Their experimental conditions were very different from those used for the recent claim of “sonofusion” (see Physics Today, Physics Today 0031-9228 55 4 2002 16 https://doi.org/10.1063/1.1480768 April 2002, page 16...
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1 September 2002
September 01 2002
Citation
Philip F. Schewe; Sonoluminescence energy. Physics Today 1 September 2002; 55 (9): 9. https://doi.org/10.1063/1.2408490
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