Breakthrough: UH team successfully locates incoming asteroid
Asteroid 2019MO impact prediction and actual location
A map of the predicted trajectory and final impact location for asteroid 2019MO. The predicted path is based on observations from the University of Hawaiʻi’s ATLAS and Pan-STARRS survey telescopes
Credit: Larry Denneau (IfA/ATLAS), Brooks Bays (SOEST)
For the first time, astronomers at the University of Hawaiʻi have demonstrated that their ATLAS and Pan-STARRS survey telescopes can provide sufficient warning to move people away from the impact site of an incoming asteroid. They detected a small asteroid prior to its entering the Earth’s atmosphere near Puerto Rico on the morning of June 22, 2019.
The 4-meter diameter asteroid, named 2019 MO, was observed four times in a span of 30 minutes by the ATLAS Maunaloa facility, just after midnight Hawaiʻi time on the morning of Saturday, June 22. At that time, the asteroid was only 500,000 km from Earth – or 1.3 times the distance to the Moon. These initial observations were assessed by the NASA Jet Propulsion Laboratory’s (JPL) Scout impact analysis software, and the asteroid was given a modest impact rating of 2 (a rating of 4 is “likely”). However, JPL’s Davide Farnocchia noted a possible match with an atmospheric infrasound detection near Puerto Rico about 12 hours later, and he asked if the community could search for additional observations.
Luckily, the Pan-STARRS 2 (PS2) telescope on Haleakalā was operating at the same time, and two hours prior to the ATLAS observations had imaged the part of the sky where 2019 MO should have been seen. The asteroid was located on a part of the PS2 camera that is not fully operational, but PS2 scientists Robert Weryk and Mark Huber, at the University of Hawai’i Institute for Astronomy (IfA) and Marco Micheli at the European Space Agency (ESA), were able to analyze these PS2 images and find the asteroid.
With these additional PS2 observations, the asteroid’s entry path prediction improved significantly, and new calculations by the Scout software increased the impact rating to 4, or “likely.” The improved orbit calculation also matched the infrasound detection with very high likelihood. The Nexrad weather radar in San Juan, Puerto Rico also detected 2019 MO as it burnt up in the atmosphere, and pinpointed the entry location over the ocean, about 380 km south of San Juan, closely corresponding to the infrasound location.
ATLAS consists of two telescopes, 100 miles apart, with one on Maunaloa on Hawaiʻi Island, and one on Haleakalā, Maui. They automatically scan the whole sky every two nights, looking in all directions and see asteroids before they can hit the Earth. It currently discovers about 100 asteroids with diameters bigger than 30m every year.
Scientists estimate that asteroid 2019 MO was much smaller, only about 4 meters (13 feet) across. An asteroid that small would likely burn up entirely as it enters Earth’s atmosphere. The ATLAS telescopes can detect even such small objects about half a day before they arrive. It will find larger objects, like the one that exploded over Chelyabinsk, Russia in 2013, a few days before they impact. That asteroid was about 20 meters across, or the size of a house. For the first time in history, astronomers can provide sufficient warning to move people away from the impact site.
ATLAS and Pan-STARRS are funded by grants from the National Aeronautical and Space Administration’s Near-Earth Object Observations program. The ATLAS program is described at their website.
Founded in 1967, the Institute for Astronomy at the University of Hawaiʻi at Mānoa conducts research into galaxies, cosmology, stars, planets, and the sun. Its faculty and staff are also involved in astronomy education, deep space missions, and in the development and management of the observatories on Haleakalā and Maunakea. The Institute operates facilities on the islands of Oahu, Maui, and Hawaiʻi.