Researchers have identified an explosive new mechanism that breaks down meteors as they hurtle toward Earth.

New simulations of falling meteors suggest air particles penetrate the space rocks' porous interiors as they careen through the atmosphere. These air particles create pockets of high pressure that ultimately lead the rock to explode from the inside, tens of kilometers above the Earth.

By uncovering this new way in which Earth's atmosphere breaks up meteors, the new finding suggests the atmosphere may provide better protection against meteors than previously believed, according to Jay Melosh, a geophysicist at Purdue University in West Lafayette, Indiana.

"There's more going on than what had been thought before," said Melosh, who will present the new research at the 2017 American Geophysical Union Fall Meeting in New Orleans.

"Bottom line is that the atmosphere is a better screen against small impacts than we had thought."

Meteors are small asteroids and other extraterrestrial rocks that have entered Earth's atmosphere from space, reaching speeds up to 40 times faster than a bullet as they race toward the ground. NASA estimates 44,000 kilograms (48.5 tons) of meteoritic matter lands on Earth every day, roughly the same weight as seven African elephants.

The friction generated between a falling meteor and the surrounding air particles can heat up the rock to the point of disintegration, but the new research suggests the air particles can also break up the meteor from the inside.

The new research considers an often-overlooked feature of meteors: their porosity. Meteors are like piles of rubble, riddled with fractures and pores, but researchers had not previously considered how the percolation of air through the meteor could affect their breakup, according to Melosh.

Melosh and his colleagues uncovered the air percolation mechanism while simulating the 2013 Chelyabinsk event, where a 20-meter (60-foot) wide meteor exploded 29.7 kilometers (18.5 miles) above the Russian Ural Mountains.

Their objective was to better understand how the meteor had disintegrated and evaporated in the atmosphere. Previous simulations for modeling meteor entry relied on computer codes commonly used to analyze how spacecraft return to the atmosphere, but these codes don't account for the porosity of the meteor.

Instead, the researchers used computer codes first developed by Los Alamos National Laboratory to model nuclear reactor explosions. For the new research, the models were used to account for meteoroids' loose conglomerate composition.

The simulations showed that the atmosphere buffets against the meteor's side facing Earth, forming a dense pocket of air in front of the rock. On the flip side, the meteor's wake creates a vacuum.

The pressurized air bubble ahead of the meteor is strongly attracted to the low-pressure environment developing behind the meteor, causing air particles to rapidly flow through the rock's cracks and holes from the front to the back of the rock. The high-pressure air moving through the meteor forces the fragments apart, causing the meteor to disintegrate in the upper atmosphere.

The new findings were published in Meteoritics and Planetary Science.

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