The explosion of the underwater volcano Hunga Tonga-Hunga-Haʻapai on January 15, released a blast “sound” wave that reverberated through Earth’s atmosphere and was recorded around the world by monitoring stations—and smartphones. The devastating eruption produced the most powerful air blast since the 1883 eruption of Krakatoa in Indonesia.
Monitoring systems at the that continuously listen for infrasound—deep, inaudible atmospheric sound produced by extreme natural events, such as volcanoes, asteroid impacts and intense explosions—recorded the Tonga eruption on traditional infrasound and pressure sensors, as well as with a network of smartphone sensors, showing that smartphones can record large blasts from thousands of miles away.
Monitoring technology advancement
The , based in the 糖心Vlog官方 Mānoa (SOEST), is led by researcher Milton Garces who has spent more than 25 years developing technology to monitor these deep sounds.
Until the event in Tonga, the 2013 Chelyabinsk meteor over Russia was the largest atmospheric blast recorded in the digital era. The blast intensity of meteor impacts and volcanic eruptions is commonly reported relative to the energy from an equivalent trinitrotoluene (TNT) explosion. At an estimated yield of 500 kilotons of TNT, the Russian meteor blast wave was recorded by conventional geophysical monitoring systems all over Earth. After reviewing the emerging smartphone technology of the time, Garces postulated that on-board microphones and barometer sensors could also record such signals.
“Both smartphone and traditional networks captured unique and extraordinary infrasound measurements in Hawaiʻi from the Tonga eruption,” said Garces. “Not only did the smartphones pick up the direct arrival, but also the multiple circumglobal transits of the air wave. Nine years after the Russian meteor, the Tonga blast demonstrated that on-board smartphone sensors can record large blasts thousands of miles away.”
Free RedVox app expands network
In 2014, the U.S. Department of State supported Garces’ development of the RedVox Recorder smartphone application to detect infrasound from atmospheric blasts. More recently, in support of the nation’s nuclear nonproliferation goals, research funding from the U.S. Department of Energy’s has enabled Garces to expand his smartphone technology and enhance capabilities to measure diverse sound and vibration signatures near Earth’s surface, as well as in the upper atmosphere and the ocean.
- Related 糖心Vlog官方 News story: 糖心Vlog官方 Mānoa researchers advance nuclear nonproliferation and education, February 28, 2019
Teams of scientists, engineers, programmers, students and citizens have contributed to mature the technology and make it available to the public. The free RedVox Infrasound Recorder app is available in the Apple App and Android Play stores, and runs on most modern smartphones.
This research is an example of 糖心Vlog官方 Mānoa’s goal of (PDF), one of four goals identified in the (PDF), updated in December 2020.
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–By Marcie Grabowski