Venus may expertise a dramatic meteor bathe this summer time, the results of the breaking up of a close-by asteroid that has left a path of mud in its wake.
The meteor bathe is predicted to subsequent happen on July 5, however observing it from Earth goes to be tough. Solely superbright fireballs, with a magnitude of round minus 12 to minus 15 — roughly the identical brightness in our sky because the moon — shall be seen from our planet.
Both asteroids, named 2021 PH27 and 2025 GN1, have the same spectral class (type X), meaning that they look the same when we measure their spectra. Also, their orbits are entirely inside that of Earth, meaning that they never intersect our planet’s path and are not an impact risk. Asteroids on such orbits belong to what scientists refer to as the Atira group, and they are relatively rare.
Incidentally, the pair also have the fastest orbits ever measured for an asteroid in the solar system, taking just 115 days to complete one circuit around the sun.
The discovery of two asteroids that look the same while sharing almost the same orbit was too much of a coincidence for a team of astronomers led by Albino Carbognani of the Italian National Institute for Astrophysics (INAF). So they set about modeling the orbit of the asteroids going 100,000 years back into the past, to see if they could figure out the space rocks’ origin.
The researchers suspected that the two asteroids were once a single asteroid that broke apart, but the simulations of their orbits revealed that at no point had they had come close enough to Earth, Venus or the sun to have been broken apart by gravitational tidal forces. The hypothesis seemed like a dead end.
Carbognani’s team wasn’t stumped for long, however. They noticed that the orbit of the two asteroids did change over the course of 100,000 years. At one point, it got as close to the sun — the point that astronomers refer to as perihelion — as 15 million kilometers (9 million miles).
That’s about four times closer to the sun than Mercury orbits, on average.
Suppose, then, that the two asteroids were once a single body. So close to the sun, repeated heating would cause the surface of the parent asteroid to crack, weakening its interior rigidity, especially if the rock were little more than a loosely held together rubble pile.
The parent asteroid would have been rotating while it was heating up near perihelion. It absorbs heat on one side and, as it spins, it radiates excess heat away in another direction. The emission of this thermal radiation acts as a weak thrust that prompts the rotation of the asteroid to speed up — a phenomenon known as the YORP effect (in honor of Yarkovsk, O’Keefe, Radzievskii and Paddack, four scientists who were key to its discovery).
Carbognani’s team suggests that, coupled with fractures on the surface weakening the asteroid’s structure, the YORP effect was able to spin the parent asteroid fast enough that it broke apart into two pieces.
Their simulations suggest this could have happened between 17,000 and 21,000 years ago, which was the last time the orbit got as close as 15 million kilometers to the sun. If that’s correct, then not enough time has passed for solar radiation to have cleared out all the dust sprayed into space by the asteroid breaking up.
“Considering that the orbits pass very close to Venus, it’s natural to wonder whether very small fragments, on the order of a millimeter, generated by the fragmentation of the original body, could still be in orbit around the sun,” said Carbognani in a statement. “Our simulations affirm that that is certainly attainable.”
The simulations present that Venus will subsequent intercept the mud stream, which might have broadened out broad sufficient to get in the way in which of Venus, in July of this 12 months. If that is right, we will anticipate a meteor bathe over Venus at the moment.
Whereas the overwhelming majority of meteor showers on Earth are produced by mud left behind by the tails of comets, Carbognani attracts a comparability with December’s Geminid meteor bathe.
“A well-known case is that of the Geminids, generated by the asteroid Phaethon, and our outcomes counsel an identical phenomenon may additionally happen on Venus,” he mentioned.
Seeing Venus’ equal of the Geminids from Earth goes to be robust, nonetheless.
“To extend the chance of detection, the perfect possibility can be direct statement from Venus’ orbit through a spacecraft,” mentioned Carbognani. Alas, there are at the moment no house missions operational at Venus, however the meteor bathe could possibly be noticed sooner or later by Europe’s EnVision, scheduled to launch for Venus in 2031 or 2032, or by NASA’s DAVINCI and VERITAS missions, ought to they go forward within the subsequent decade.
The findings have been reported on Jan. 17 within the journal Icarus.
