Plasma sparks from a hot gas bubble.When intense, high-frequency sound waves bombard bom·bard tr.v. bom·bard·ed, bom·bard·ing, bom·bards 1. To attack with bombs, shells, or missiles. 2. To assail persistently, as with requests. See Synonyms at attack, barrage2. 3. a gas bubble in water, they can induce the bubble to generate brief, brilliant flashes of visible and ultraviolet light. Known as sonoluminescence son·o·lu·mi·nes·cence n. The production of light as a result of the passing of sound waves through a liquid medium. The sound waves cause the formation of bubbles that emit bright flashes of light when they collapse. , this conversion of sound into light occurs during the rapid, violent contraction of a bubble as it oscillates in step with the sound wave (SN: 10/5/96, p. 214). Now, William C. Moss and his colleagues at the Lawrence Livermore (Calif.) National Laboratory have applied techniques from nuclear fusion research to model the behavior of the gas inside a luminescing bubble. The researchers report their findings in the May 30 Science. The team assumed that a collapsing bubble generates an intense shock wave, which compresses and heats the gas to create a partially ionized i·on·ize tr. & intr.v. i·on·ized, i·on·iz·ing, i·on·iz·es To convert or be converted totally or partially into ions. i , light-emitting plasma of ions and electrons. Computer simulations of the behavior of such a plasma reveal that accelerated electrons produce the flash, and rapid changes in the plasma's transparency limit its duration. Moreover, both the duration and the spectra of flashes are very sensitive to the maximum bubble radius, which could explain the puzzling variability of experimental results. The team's calculations also show that only the argon argon (är`gŏn) [Gr.,=inert], gaseous chemical element; symbol Ar; at. no. 18; at. wt. 39.948; m.p. −189.2°C;; b.p. −185.7°C;; density 1.784 grams per liter at STP; valence 0. component of the gas is involved in the process. "Although it remains to be confirmed experimentally that shock waves or plasmas are present in a bubble undergoing [sonoluminescence], no other model of which we are aware has been able to explain such a broad array of experimental data," Moss and his coworkers conclude. The results also suggest that finding a way to increase the maximum bubble radius significantly might lead to thermonuclear ther·mo·nu·cle·ar adj. 1. Of, relating to, or derived from the fusion of atomic nuclei at high temperatures: thermonuclear reactions. 2. fusion inside an oscillating os·cil·late intr.v. os·cil·lat·ed, os·cil·lat·ing, os·cil·lates 1. To swing back and forth with a steady, uninterrupted rhythm. 2. bubble, say Lawrence A. Crum and Thomas J. Matula of the University of Washington in Seattle. |
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion