Southwest Research Institute researchers present first 'images' of thunder
SAN ANTONIO – For the first time, scientists are revealing images that visually capture the sound waves created by artificially triggered lightning. Researchers from Southwest Research Institute are presenting the first images at a joint meeting of American and Canadian geophysical societies in Montreal from May 3-7.
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"Lightning strikes the earth more than 4 million times a day, yet the physics behind this violent process remain poorly understood," said Dr. Maher A. Dayeh, a research scientist in SwRI Space Science and Engineering Division. "While we understand the general mechanics of thunder generation, it's not particularly clear which physical processes of the lightning discharge contribute to the thunder we hear. A listener perceives thunder largely based upon the distance from lightning. From nearby, thunder has a sharp, cracking sound. From farther away, it has a longer-lasting, rumbling nature."
Though people see lightning as a flashing bolt, it actually begins as a complex process of electrostatic charges churning around in storm clouds. The charges initiate step leaders -- branching veins of electricity propagating down -- which subsequently lead to a main discharge channel. The channel opens a path to nearly instantaneous return strokes, which form the lightning flash as we see it.
By studying the acoustic power radiated from different portions of the lightning channel, researchers can learn more about the origins of thunder and the energetic processes associated with lightning.
"Thunder and lightning are fascinating, wild and unpredictable," Dayeh said. "Because of their erratic nature, the phenomena are best studied using triggered events."
The technique involves launching a small rocket trailing a grounded copper wire into thunderclouds. The wire provides a conductive channel and creates a predictable path for lightning, allowing scientists to precisely focus their instruments and perform repeatable experiments close to the discharge channel.
Using SwRI internal research funding, Dayeh led a proof-of-concept experiment to image the acoustic signature of thunder. SwRI conducted experiments at the International Center for Lightning Research and Testing at the University of Florida, Gainesville, taking advantage of the state's claim to the most lightning strikes per year in the U.S.
Dayeh designed an array of microphones to conduct his studies. Fifteen microphones, spaced one meter apart, were lined up 95 meters away from the rocket launch pad, where the triggered lightning would strike. To image the vertical profile of the bolt, he used post-signal processing techniques and directional amplification of the data signals captured by the microphone array.
"At first I thought the experiment didn't work," Dayeh said. "The initial constructed images looked like a colorful piece of modern art that you could hang over your fireplace. But you couldn't see the detailed sound signature of lightning in the acoustic data."
But when Dayeh looked at the different sound frequency bands, he saw that the images cleared up at higher frequencies. The technique revealed a distinct signature of thunder generated by the lightning strike. Future experiments could allow scientists to study the probable acoustic signatures of current pulses, step leader branches and discharge channel zigzags independently.
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