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Wales Online
Wales Online
National
Dean Murray & Steven Smith

Scientists discover 'planet killer' asteroid near Earth

Scientists have discovered a "planet killer" asteroid hiding in the glare of the Sun. The 1.5km-wide space rock is the largest potentially hazardous asteroid detected in eight years.

An international team, using the Dark Energy Camera (DECam) mounted on the Víctor M. Blanco four-metre telescope at Cerro Tololo Inter-American Observatory in Chile, a program of NSF’s NOIRLab, discovered three new near-Earth asteroids (NEAs) hiding in the inner Solar System. This region is notoriously challenging for observations because asteroid hunters have to contend with the light of the sun.

By taking advantage of the brief yet favourable observing conditions during twilight, the astronomers found a trio of NEAs. These NEAs are part of an elusive population that lurks inside the orbits of Earth and Venus.

The largest asteroid, called 2022 AP7, has an orbit that may someday place it in Earth’s path. The other asteroids, called 2021 LJ4 and 2021 PH27, have orbits that safely remain completely interior to Earth’s orbit.

Also of special interest to astronomers and astrophysicists, 2021 PH27 is the closest known asteroid to the sun. As such, it has the largest general-relativity effects of any object in the Solar System and during its orbit its surface gets hot enough to melt lead.

Scott S. Sheppard, astronomer at the Earth and Planets Laboratory of the Carnegie Institution for Science and lead author of the paper published in Astronomical Journal, said: "Our twilight survey is scouring the area within the orbits of Earth and Venus for asteroids. So far we have found two large near-Earth asteroids that are about one kilometre across, a size that we call planet killers.

“There are likely only a few NEAs with similar sizes left to find, and these large undiscovered asteroids likely have orbits that keep them interior to the orbits of Earth and Venus most of the time. Only about 25 asteroids with orbits completely within Earth’s orbit have been discovered to date because of the difficulty of observing near the glare of the sun.”

Finding asteroids in the inner Solar System is a daunting observational challenge. Astronomers have only two brief ten-minute windows each night to survey this area and have to contend with a bright background sky resulting from the sun’s glare.

Additionally, such observations are very near to the horizon, meaning that astronomers have to observe through a thick layer of Earth’s atmosphere, which can blur and distort their observations. Discovering these three new asteroids despite these challenges was possible thanks to the unique observing capabilities of DECam: a state-of-the-art instrument that is one of the highest-performance, wide-field CCD (charge-coupled device) imagers in the world.

Mr Sheppard said: "Large areas of sky are required because the inner asteroids are rare, and deep images are needed because asteroids are faint and you are fighting the bright twilight sky near the sun as well as the distorting effect of Earth’s atmosphere. DECam can cover large areas of sky to depths not achievable on smaller telescopes, allowing us to go deeper, cover more sky, and probe the inner Solar System in ways never done before.”

Cerro Tololo Inter-American Observatory in Chile (CTIO/NOIRLab/NSF/AURA/P. Marenfeld/SWNS/CC 3.0)

As well as detecting asteroids that could potentially pose a threat to Earth, the research is an important step toward understanding the distribution of small bodies in the Solar System. Asteroids that are further from the sun than Earth are easiest to detect.

Because of that these more-distant asteroids tend to dominate current theoretical models of the asteroid population. Detecting these objects also allows astronomers to understand how asteroids are transported throughout the inner Solar System and how gravitational interactions and the heat of the sun can contribute to their fragmentation.

“Our DECam survey is one of the largest and most sensitive searches ever performed for objects within Earth’s orbit and near to Venus’s orbit,” said Mr Sheppard. “This is a unique chance to understand what types of objects are lurking in the inner Solar System.”

The study, “A deep and wide twilight survey for asteroids interior to Earth and Venus”, is published in The Astronomical Journal, 164, 168. Authors: Sheppard, S. Tholen, D., Pokorný, P., Micheli, M., and Dell’Antoniio, I., et al. (2022).

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