A novel algorithm developed by 天美影视传媒 researchers to discover asteroids in the solar system has proved its mettle. The first candidate asteroids identified by the algorithm 鈥 known as Tracklet-less Heliocentric Orbit Recovery, or 鈥 have been confirmed by the International Astronomical Union鈥檚 .
The Asteroid Institute, a program of , has been running THOR on its cloud-based astrodynamics platform 鈥 Asteroid Discovery Analysis and Mapping, or ADAM 鈥 to identify and track asteroids. With confirmation of these new asteroids by the Minor Planet Center and their addition to its registry, researchers using the Asteroid Institute鈥檚 resources can submit thousands of additional new discoveries.
鈥淎 comprehensive map of the solar system gives astronomers critical insights both for science and planetary defense,鈥 said Matthew Holman, dynamicist and search algorithm expert at the Center for Astrophysics | Harvard & Smithsonian and the former director of the Minor Planet Center. 鈥淭racklet-less algorithms such as THOR greatly expand the kinds of datasets astronomers can use in building such a map.鈥
THOR was co-created by , a UW associate professor of astronomy and director of the UW鈥檚 , and , a UW graduate student in astronomy. They and their UW collaborators unveiled THOR in a published last year in The Astronomical Journal. It links points of light in different sky images that are consistent with asteroid orbits. Unlike current state-of-the-art codes, THOR does not require the telescope to observe the sky in a particular pattern for asteroids to be discoverable.
The Asteroid Institute鈥檚 ADAM platform is an that runs astrodynamics algorithms at large scale using Google Cloud, in particular the scalable computational and storage capabilities in Google Compute Engine, Google Cloud Storage and Google Kubernetes Engine.
鈥淭he work of the Asteroid Institute is critical because astronomers are reaching the limits of what鈥檚 discoverable with current techniques and telescopes,鈥 said Juri膰, who is also a senior data science fellow with the UW . 鈥淥ur team is pleased to work alongside the Asteroid Institute to enable mapping of the solar system using Google Cloud.鈥
Researchers can now begin systematic explorations of large datasets that were previously not usable for discovering asteroids. THOR recognizes asteroids and, most importantly, calculates their orbits well enough to be recognized by the Minor Planet Center as tracked asteroids.
Moeyens searched a 30-day window of images from the NOIRLab Source Catalog, a collection of nearly 68 billion observations taken by the National Optical Astronomy Observatory telescopes between 2012 and 2019, and submitted a small initial subset of discoveries to the Minor Planet Center for official recognition and validation. Now that the computational discovery technique has been validated, thousands of new discoveries from the catalog and other datasets are expected to follow.
鈥淒iscovering and tracking asteroids is crucial to understanding our solar system, enabling development of space and protecting our planet from asteroid impacts,鈥 said Ed Lu, executive director of the Asteroid Institute. 鈥淲ith THOR running on ADAM, any telescope with an archive can now become an asteroid search telescope. We are using the power of massive computation to enable not only more discoveries from existing telescopes, but also to find and track asteroids in historical images of the sky that had gone previously unnoticed because they were never intended for asteroid searches.鈥
The B612 Foundation recently to advance these efforts.
The collaborative efforts of Google Cloud, B612鈥檚 Asteroid Institute and the 天美影视传媒鈥檚 DiRAC Institute make this work possible.
For more information, contact Juri膰 at mjuric@uw.edu and Moeyens at moeyensj@uw.edu.
Adapted from a e by the B612 Foundation.