NASA’s Perseverance rover has captured a lightning strike on Mars for the first time. Although it may seem strange, it is only the fourth planet in which we have confirmed the presence of this type of electrical activity, after Earth, Jupiter and Saturn.
Confirmed. Despite its thin atmosphere, scientists have suspected for decades that the red planet, with its constant whirlwinds and dust storms, must have some type of electrical activity. Now, thanks to the Perseverance rover, we finally have definitive proof.
The discovery, published in the journal Natureconfirms that the Martian atmosphere crackles with electricity, although not exactly like the Earthly storms we know.
They haven’t seen it, they’ve heard it. As much as we would have liked the Perseverance rover to photograph a blinding flash across the Martian sky, the first evidence of electrical activity on Mars is not visual, but auditory.
NASA’s rover’s SuperCam instrument, equipped with a microphone originally designed to listen to the rover’s laser hitting rocks, has captured something unexpected: the sound of electrical discharges.
Among dust devils. According to the data analyzed by the Jet Propulsion Laboratorythe rover recorded 55 electrical discharge events over two Martian years. Most associated with dust storms, and 16 of them when the rover was directly crossed by sand devils.
“We got some good recordings where you can clearly hear the click,” Ralph Lorenz, Perseverance mission scientist, explains in a statement. But in a specific recording from sol 215 (the 215th Martian day of the mission), you hear not only the electrical crack, but also the swirling wind hitting the rover and grains of sand impacting the microphone.
The triboelectric effect. How do these rays form on a planet without rain clouds? Because of the triboelectric effect, exactly the same physical principle that happens when we walk with socks on a carpet and then you touch a doorknob and, ouch, a spark jumps.
On Mars, dust devils act like giant generators of static electricity: Hot air rises and begins to rotate, forming a vortex. When rotating, it raises dust and sand. The dust grains rub against each other, transferring electrons and generating charge.
It’s not very encouraging. Although on Earth it also occurs in deserts, on Mars this effect is much more likely to result in electrical shocks. The Martian atmosphere is extremely thin, so the amount of charge needed to break air resistance and generate a spark is much smaller.
This discovery is not just a meteorological curiosity; has profound implications for the planet’s chemistry and the search for life. Confirmation of these electrical discharges suggests that the Martian atmosphere may become charged enough to activate powerful chemical reactions. These sparks could be creating highly oxidizing compounds, such as perchlorates, which are very aggressive and can destroy the organic molecules (the building blocks of life) that the rover is trying to find.
Image | NASA/JPL-Caltech/University of Arizona
In Xataka | Who or what excavated the ravines on Mars? The answer is even stranger than we always thought
GIPHY App Key not set. Please check settings