December 4, 2012

Crowdsourcing the cosmos: Astronomers welcome all to identify star clusters in Andromeda galaxy

News and Information

Andromeda galaxy Andromeda Project will take photos of one-third of its planet-forming disk; citizen scientists will help astronomers find star clusters

Robert Gendler

The Hubble Space Telescope is currently taking ultra-high-resolution photographs of about one-third of the Andromeda galaxy. The Andromeda Project will enlist citizen scientists to hunt for star clusters in this massive data set.

Astronomers are inviting the public to search Hubble Space Telescope images of the Andromeda galaxy to help identify star clusters and increase understanding of how galaxies evolve.

The new Andromeda Project, set to study thousands of high-resolution Hubble images, is a collaboration among scientists at the University of Washington, the University of Utah and several other partners.

“It’s an amazing opportunity to discover something new,” said Julianne Dalcanton, UW astronomy professor. “Anyone can look at these beautiful Hubble images and participate in the scientific process. And it’s a huge help to us.”

No astronomy experience is needed; volunteers can start after taking a brief tutorial at www.andromedaproject.org.

“The site is easy to use,” said Cliff Johnson, a UW graduate student and project co-organizer. “We hope people will feel like they are playing an online game, but one that helps astronomers with research.” Volunteers will essentially vote, as they search, on the identity and location of star clusters.

Andromeda Project section of Andromeda galaxy

Zolt Levay, Space Telescope Science Institute.

A small section of the Hubble Space Telescope images showing some of the thousands of star clusters to be detected in its survey of the Andromeda galaxy. The Andromeda Project will enlist citizen scientists to look through this massive data set to hunt for star clusters.

The help is needed because of the huge volume of data. There may be as many as 2,500 star clusters hiding in Hubble’s Andromeda images, but only 600 have been identified so far in months of searching, and star clusters tend to elude pattern-recognition software. The researchers decided it’s something the average citizen can do without extensive training.

Star clusters are dense groups of stars that are born together from the same cloud of gas. Their common age and composition make them useful for studying the evolution of galaxies and the properties of stars.

“We have a good sense of how stars, once born, evolve,” said Anil Seth, assistant professor of astronomy at the University of Utah. “But we don’t really know the details of how galaxies form and how stars form within those galaxies. Andromeda is the best place to study these processes.”

Andromeda, also called Messier 31 or M31, is the closest spiral galaxy to our own Milky Way, which is similar. Though a neighbor in the galactic sense, Andromeda is 2.5 million light years from the Earth. That translates into about 15 billion billion — yes, billion billion — miles.

The more than 10,000 images citizen astronomers will view are part of a 20-institution program called the Panchromatic Hubble Andromeda Treasury, or PHAT for short, of which Dalcanton is principal investigator.

The goal of the survey is to map about one-third of Andromeda’s star-forming disk, through six filters spread across the electromagnetic spectrum — two ultraviolet, two visible and two infrared.

The Hubble telescope started gathering images for the project in 2010 and is expected to send its last batch back to Earth in the summer of 2013. Seth said the project will produce “the largest catalog of star clusters known in any spiral galaxy.”

Other Andromeda Project partners are Oxford University, the Adler Planetarium, the European Space Agency, the University of Minnesota and the Zooniverse Project.

“I’d love for this project to create the definitive data set for understanding how clusters form and how stars evolve,” Dalcanton said. “To think that anyone with a web browser can participate in building this legacy is tremendously exciting.”

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For more information or interviews, contact Dalcanton at 206-619-1959, jd@astro.washington.edu; Johnson at 207-649-8955, lcjohnso@astro.washington.edu; Seth at 206-724-3820, aseth@astro.utah.edu; or Chris Lintott at +44 1865 273638 and +44 7808 167288 or cjl@astro.ox.ac.uk.

 

 

 

 

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