Each animation in this "Backyard Worlds: Planet 9" project, launched February 15, is composed of four infrared images taken of the same patch of sky over the course of the past five years by NASA's WISE - Wide-field Infrared Survey Explorer - space telescope.
Aaron Meisner, a University of California at Berkeley (UC Berkeley) physics postdoctoral researcher who works on DESI - Dark Energy Spectroscopic Instrument, a sky-mapping project led by the Berkeley Lab, said his research earned him a spot on the Backyard Worlds team.
"It turns out that the WISE data that I was adapting for DESI is really good for looking for moving objects, such as brown dwarfs", stated Aaron Meisner. "We wouldnt have all of this WISE data available in this form if it wasn't for DESI", he added.
Brown dwarfs can be tens of times more massive than Jupiter but aren't capable of carrying out the same type of nuclear fusion as stars.
Marc Kuchner, the Backyard Worlds project creator and an astrophysicist at NASA Goddard Space Flight Center, stated: "More than a million of these 'rogue worlds' are swarming the galaxy. There may well be a brown dwarf located near the sun that we can find with this project."
Marc Kuchner reached out to Aaron Meisner when he learned of his work with the WISE data. Aaron Meisner has been developing algorithms tapping Berkeley Lab's NERSC - National Energy Research Scientific Computing Center - to help parse and reprocess the giant load of data produced by WISE and make it more useful to DESI. UC Berkeley researchers are also using NERSC to sift through data collected by a San Diego-area telescope for signs of Planet Nine.
Marc Kuchner has also led a citizen science project called Disk Detective that allows users to scan WISE images for debris disks that could provide clues to planetary formation. He was a graduate student of Mike Brown, an astronomer at the California Institute of Technology who helped build up the scientific case for the existence of Planet Nine.
A goal of the Backyard Worlds project is to see whether there are any brown dwarfs that are even closer than Proxima Centauri, which is the nearest star to our sun at about 4.2 light years' distance. The nearest brown dwarfs that have been observed, to date, are about 6.5 light years away.
In his DESI-related research, Aaron Meisner helps to ensure that the WISE images are useful for selecting sky objects that DESI can fix on when it begins operating in 2019. Data from a set of Earth-based, visible-light sky surveys will also be used to identify millions of candidate galaxies and quasars for DESI.
DESI will build the most detailed 3D map of the universe and provide the most exacting measure of the accelerating expansion rate of the universe. Scientists explain this expansion rate with a hypothesized form of energy called dark energy.
Aaron Meisner last year embarked on a pet project to conduct automated searches for Planet Nine within the WISE data. But computerized searches can be greatly compromised by false detections caused by a small amount of light scattering in the telescope's camera - particularly when there are bright stars or densely packed stars in the image.
"One of the hardest areas for both automated and citizen science approaches is in the plane of the Milky Way galaxy because there are so many stars", Aaron Meisner stated. "We don't want to leave out any part of the sky, and that is one of the key motivations and advantages for showing the volunteers everything."
The current plan for the Backyard Worlds project is to have each of the 1.2 million animations in the project's first batch of data reviewed at least 15 times, for a total of 18 million classifications. This helps increase the possibility that moving objects that slip past some of the volunteers may be spotted by others.
In the first week, Backyard Worlds drew about 1.7 million total classifications from about 20,000 volunteers.
"The response has been so wonderful that we're having trouble keeping up", Marc Kuchner stated. "The volunteers are churning through the data as fast as I can upload it."
Volunteers are asked to click to place markers in every frame for those objects that clearly flip-flop between black-and-white states between frames - referred to as "dipoles", and those that seem to be moving across the frame ("movers").
Volunteers are also invited to review a couple of online catalogues of space objects to check whether what they find is something new or something known, and to make notations for what they learn.
Members of the Backyard Worlds team participate in online discussion groups at its Web home on Zooniverse to help keep up with volunteers' queries.
The team is working out plans on how to best mine all of the user-generated information that is already pouring in, Aaron Meisner said, and he plans to assist in developing some algorithms to call out the most promising finds by volunteers.
There is plenty of additional WISE data available to feed to the growing community of Backyard Worlds volunteers, too, he said.
The early data analyses of the volunteers' classifications has begun, Aaron Meisner added, and already the data appear to contain intriguing examples of pairs of nearby stars that trail across the animations at about the same speed and direction.
Little is known about how Planet Nine might appear in the WISE animations, or if it would appear at all, and that's part of the excitement surrounding Backyard Worlds, Aaron Meisner said. The discovery of nearby brown dwarfs would be a big win for the project, even without the unearthing of a new planet.
"While we may not discover Planet Nine, we'll still have the fun of finding new objects", he stated.
An overview of the "Backyard Worlds: The Search for Planet 9" citizen science project launched at Zooniverse.org. Credit: David R. Rodriguez, Jacqueline K. Faherty/ www.backyardworlds.org