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A&S Professor Leads Effort to Develop World’s Largest, Most Inclusive 'Stellar Library'

By Jenny Wells and Jordan Raddick

A Hertzsprung-Russell diagram of all stars currently in the MaNGA Stellar Library, showing temperature and brightness (luminosity) of stars, along with information on their chemical makeup. Photo courtesy of SDSS collaboration.

Want to learn everything there is to know about a subject? Go to the library. Want to learn everything there is to know about stars? Go to the stellar library.

Renbin Yan, an associate professor of physics and astronomy in the UK College of Arts and Sciences, along with a team of astronomers from the Sloan Digital Sky Survey (SDSS), announced today the opening of a new “stellar library” containing spectra of thousands of stars in the Milky Way galaxy. Having access to this library will help astronomers understand not only our own galaxy, but galaxies across the universe.

The announcement came at the annual meeting of the American Astronomical Society (AAS) in Seattle. The new library is known as the “MaNGA Stellar Library,” named after the SDSS’s Mapping Nearby Galaxies at Apache Point Observatory (MaNGA) survey it was designed to support. MaNGA’s goal is to understand the detailed internal structure of galaxies — but of course galaxies are made of stars, so understanding a galaxy requires understanding the stars that compose it. For decades, astronomers have been trying to figure out what unique mix of stars best explains the light that we see from every distant galaxy.

“It’s a bit like hearing a symphony,” said Yan, who serves as principal investigator of the MaNGA Stellar Library project, or MaStar for short. “We hear the sound from the entire orchestra at once, but we can only understand the music if we know which instruments are playing.”

For galaxies, the “music” is the light coming from the mix of stars that make up a galaxy, along with its detailed history of star formation. The problem is that other galaxies are so far away that astronomers cannot distinguish individual stars in them. The solution is to study thousands of stars in our own Milky Way. Once they identify all of the possible “instruments” using stars in the Milky Way, they can decipher the “music” of distant galaxies.

In a symphony, the sound of each instrument has its own unique tone; in the case of galaxies, the light of each type of star has a unique spectrum. A spectrum measures how much light a star gives off at different wavelengths, a pattern unique to each type of star. Like sheet music shows how a song will sound, “reading” a spectrum gives important information about a star, like its temperature, size and chemical composition. By observing thousands of stars of all types, astronomers can build up a “library” of stellar spectra. Thus, when they measure the spectrum of a distant galaxy, they can try to build the spectrum by putting together different combinations of stars from the stellar library until they find a combination that fits.

“To reconstruct the spectrum of a galaxy, you need to get good spectra for the widest range of stars you possibly can,” said Karen Masters, spokesperson for the SDSS project. “This allows you to estimate the mass the galaxy has in stars, and reconstruct its star formation history, both crucial to complete the goals of the MaNGA survey part of SDSS-IV. As astronomers often say, this is just like reconstructing a piano from the sound it makes falling down the stairs.”

Those accurate spectra come from the spectrograph of the MaNGA program. MaNGA spends most of its time observing galaxies, but over the last three years, it has also measured spectra for more than 3,000 stars of all colors and sizes. These spectra have been collected into MaStar.

MaStar began out of necessity. At the beginning of the fourth phase of the SDSS in 2013, the MaNGA team realized that there was no suitable library of stellar spectra for their survey. Rather than be stymied by the lack of such a library, the team realized they had an opportunity to create such a library by working with the other survey programs that make up the SDSS.

"We needed a new stellar library, meeting not only certain specifications in wavelength coverage but also covering more types of stars," said Yan, who works closely on the project with UK doctoral student Daniel Lazarz. "I planned and led a team of people to carry out the project — it was a huge amount of effort."

Yan says what makes the MaStar project possible is the parallel observing capability in the SDSS.

“At the same time as our colleagues use the infrared spectroscope to observe stars in our galaxy, we can use the MaNGA instrument to simultaneously observe other stars in optical," Yan said. "This is enabled by the way SDSS uses fibers to observe the light from many stars at once. We basically get the observations for free."

Thus, with this strategy of “piggybacking” on other SDSS observations, researchers from the MaNGA team were able to get the right spectra for the right stars to create the stellar library they so desperately needed. All the spectra for all these stars have been released as part of the SDSS’s Data Release 15, and are available online through the project’s website at www.sdss.org.

Once astronomers have a library that includes the light spectra for as many types of stars as possible, they can figure out how many of each type of star add up to make the galaxy spectrum, and thus understand the galaxy’s history of star formation. In Yan’s analogy, they can understand which instruments are making the music. The key is to include as many types of stars as possible in the library.

“MaStar is the most inclusive stellar library ever created,” Yan said. “That inclusivity is our biggest strength: the more instruments we can recognize, the better we can understand the symphony.”  

And the MaNGA Stellar Library will just keep growing. With observations continuing at Apache Point Observatory until at least 2020, it will become the biggest and most inclusive stellar library ever made.

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