This article was originally published on October 26, 2020.
With everything happening in the world, sometimes it鈥檚 important to put your chin up 鈥 but not to look at the bright side; it鈥檚 more about finding peace while gazing at the night sky. At least, that鈥檚 how Astronomy Associate Professor Will Clarkson sees it.
鈥淚t鈥檚 profoundly beautiful and should be enjoyed,鈥 he says. 鈥淭he physical universe keeps going no matter what we do. It really is inspirational in a way.鈥
Clarkson knows a bit about the universe鈥檚 vastness. He has spent much of the last decade working as part of a group of leading researchers to assemble an extensive map of the inner regions of the Milky Way galaxy 鈥 the Galactic Bulge 鈥 comprising a quarter of a billion objects measured in six 鈥渇ilters鈥 ranging from the near-infrared, through the visible part of the spectrum and even a little into the near-ultraviolet.
Led by R. Michael Rich of UCLA and Christian Johnson at the Space Telescope Science Institute, , of which Clarkson is a core member.
Historically it's been hard to study the Milky Way鈥檚 Galactic Bulge due to vertically thick density of stars and dust and the sheer scale of the structure. A uniform dataset over such a large structure is challenging because high-quality, high-resolution images have tended to be difficult to achieve over large areas of the sky, particularly from the ground. But advances in technology have made it possible.
So the team of researchers set out to 鈥 a visual encyclopedia with space object images, spectra, location and more 鈥 for astronomers, educators and researchers around the world to use in their work. The team is currently working on quality control for this large dataset and anticipates releasing it to the community during 2021.
鈥淎stronomy is increasingly dominated by large teams of researchers, but this work shows how much impact a relatively small team can have on the analysis of this huge dataset,鈥 Rich says. 鈥淭his dataset is a taste of things to come in two or three years, when the Vera Rubin Telescope in Chile starts its big surveys.鈥 The , expected to open next year, will specialize in astronomical surveys.
Clarkson says sharing data has become a vital component of astronomical research, with many discoveries now made by re-investigating previously collected datasets.
Public hosting of datasets for others to use for their own scientific purposes has led to an increase in access to scientific discovery by individuals and institutions everywhere. For example, in 2019 . 鈥淚t is a big universe. There are simply too many interesting things for one person to find or solve,鈥 he says. 鈥淭here is a public spiritedness in this, but it鈥檚 also grounded in reality. Collaboration is needed to better understand the universe.鈥
To gather the images needed to create the Milky Way鈥檚 Galactic Bulge dataset, team members 鈥 including Clarkson 鈥 traveled to South America to use the Dark Energy Survey Camera (DECam) at Chile鈥檚 Cerro Tololo Inter-American Observatory on multiple occasions. Attached to the Victor Blanco 4m telescope, the DECam is roughly the size of a Smart Car. 鈥淚t combines exquisite image quality with a huge field of view, enabling millions of stars to be captured in a single image.鈥 To get an idea of the scope, Clarkson shares that a single image will record data from an area of the sky over four times the diameter of the full moon as seen from Earth.
For this decade-long endeavor, Clarkson says UM-Dearborn students have played an active role too, gaining research experience and skills.
Some examples: Lizzy Clyne, 鈥15, was the first UM-Dearborn undergraduate to assist with the images from this project 鈥 she later worked with NASA鈥檚 jet propulsion team and is now a Ph.D. candidate at Penn State. Brittany Howard, 鈥17, worked on quality control of an earlier version of the catalog and traveled with Clarkson in 2015 for an observing run at CTIO for this project. After completing a Masters鈥 in Astrophysics at the University of Victoria, Howard is now a data scientist in the private sector. Currently, seniors Alexis Osmond and Nick Boyd work with Clarkson to examine the galactic objects in the DECam images and properly characterize and catalog them.
Osmond says her interest in astrophysics enticed her to apply for a research assistant position in Clarkson鈥檚 lab. But the importance of the work is what has kept her in that role for the majority of her time as an undergrad.
鈥淢y part of the work uses data from the Gaia spacecraft to check the camera distortion. I saw this Gaia data release mentioned in one of the astronomy textbooks, which is what put everything into perspective and helped me realize how the work I was doing would be applied in the real world,鈥 says Osmond, a physics major. 鈥淚 had the opportunity to present my astrometric calibration of the catalog using Gaia DR2 at the Conference for Undergraduate Women in Physics, which was a great chance to meet other physicists and to get to know more about physics as a profession. I鈥檓 looking forward to applying this to Gaia DR3 when it鈥檚 released.鈥
And Boyd says working with never-seen-before images strengthens his interest in discovery. 鈥淚鈥檝e always been interested in space. You can鈥檛 help but look up at the night sky and wonder what鈥檚 going on up there. I really like being able to find out something that wasn鈥檛 previously known,鈥 says Boyd, who says his work in Clarkson鈥檚 lab, like calibrating an X-ray spectrum detector, gave him the experience needed for his summer internship at Stanford鈥檚 National Accelerator Laboratory. 鈥淭here鈥檚 still more to learn, of course, but we are creating a map for researchers to use now and into the future.鈥
Clarkson says having the legacy dataset opens the door for significant discoveries.
鈥淲e are hopeful that the map will ultimately unlock some of the deepest mysteries about the formation of our own galaxy, and therefore help us understand galaxy formation throughout the universe.鈥
The research team involved with this project: R. Michael Rich (University of California, Los Angeles), Christian I. Johnson (Space Telescope Science Institute), Michael Young (Indiana University), Iulia T. Simion (Shanghai Astronomical Observatory), William I. Clarkson (每日大赛), Catherine Pilachowski (Indiana University), Scott Michael (Indiana University), Andrea Kunder (St Martin鈥檚 University), A. Katherina Vivas (NSF鈥檚 NOIRLab), Andreas Koch (University of Heidelberg), Tommaso Marchetti (European Southern Observatory), Rodrigo Ibata (Strasbourg Observatory), Nicolas Martin (Strasbourg Observatory), Annie C. Robin (University of Bourgogne Franche-Comt茅), Nad茅ge Lagarde (University of Bourgogne Franche-Comt茅), Michelle Collins (University of Surrey), 沤eljko Ivezic (University of Washington), Roberto de Propris (Finnish Centre for Astronomy with ESO), and Juntai Shen (Shanghai Jiao Tong University).
