for National Geographic News
Among the fascinating creatures of the deep is a finger-size shrimp with
an oversize clawresembling a boxing glovethat it uses to
stun its prey by snapping the claw shut. The snapping produces a sharp
When colonies of the shrimp snap their claws, the cacophony is so intense that submarines can take advantage of it to hide from sonar.
A year ago, a team of European scientists revealed that the sound is caused by the bursting of a bubble that forms when a shrimp snaps its claw shut. Now, the team reports that the bubble emits not only sound but a flash of lightindicating the extreme temperature and pressure inside the bubbles before they burst.
What this light part does is highlights the extreme conditions achieved at collapse, said Detlef Lohse, a physics professor at the University of Twente in the Netherlands.
Lohse and his colleagues Michel Versluis, also from the University of Twente, and Barbara Schmitz of the Technical University of Munich in Germany explain the flashes of light associated with the bubble collapse in the October 4 issue of Nature.
The shrimp, Alpheus heterochaelis, is a dirty-green crustacean that prowls the shallow waters of tropical seas. It has two claws', one resembling an oversize boxing glove, which it uses to stun prey, such as small crabs, by snapping the oversize claw shut.
Lohse and his colleagues reported in the September 22, 2000, issue of Science that the stunning snap comes not from the clap of the claws coming together but from a bubble generated by the claws' rapid closing motion.
When the claw snaps shut, a jet of water shoots out from a socket in the claw at speeds of up to 62 miles (100 kilometers) an hour, generating a low-pressure bubble in its wake. As the pressure stabilizes, the bubble collapses with a loud bang.
The whole process, which was recorded with the use of high-speed cameras and sound equipment, occurs within 300 microseconds.
Now, using a device that counts photons, Lohse and his colleagues recorded a flash of light that occurs when the bubble collapses.
The flashing phenomenon is thought to be similar to sonoluminescence, in which bubbles that are in a liquid driven by a strong sound field emit light. The researchers have dubbed the shrimp activity shrimpoluminescence.
In sonoluminescence, the peak intensity of the emitted light is at a short wavelength. This indicates that the temperature inside the bubble is at least 10,000 degrees Kelvin (18,000 degrees Fahrenheit).
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