Vera C. Rubin Observatory unveils 1st images of universe: Take a look
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Vera C. Rubin Observatory unveils 1st images of universe: Take a look
Vera C. Rubin Observatory will revolutionize the study of the universe when it incorporates the largest digital camera ever built in the world. The new observatory will begin science operations in late 2025. It is located in northern Chile and is expected to be fully operational by 2023. The first images of the observatory were taken by the NSF-DOE Vera C.Rubin Observatory on Cerro Pachón in Chile on January 24, 2024. The images were taken using a combination of 678 separate images taken in just over seven hours of observing time. They include images of 10 million galaxies, roughly .05% of the approximately 20 billion galaxies Rubin will capture in the next decade.
Vera C. Rubin Observatory unveils 1st images of universe: Take a look
Aerial view of Vera C. Rubin Observatory located in Chile, taken Jan. 24, 2024. Surrounded by desert-like mountains and under the blue skies of northern Chile, the Vera C. Rubin Observatory will revolutionize the study of the universe when it incorporates the largest digital camera ever built in the world. (Photo by) (Photo by JAVIER TORRES/AFP via Getty Images) Javier Torres/AFP Via Getty Images
Rubin Observatory stands on Cerro Pachón in Chile against a sky full of star trails in this long exposure night sky image. Hernan Stockebrand, RubinObs/NOIRLab/SLAC/NSF/DOE/AURA
Sunset at Rubin Observatory on Cerro Pachón in Chile. Petr Horalek, RubinObs/NOIRLab/SLAC/NSF/DOE/AURA
NSF–DOE Vera C. Rubin Observatory atop Cerro Pachón in Chile is outlined against the full Moon rising above the horizon. A trick of perspective has enlarged the Moon beyond the size we’d naturally see it on Earth. Rubin Observatory will begin science operations in late 2025. Hernan Stockebrand, RubinObs/NOIRLab/SLAC/NSF/DOE/AURA
This image captures not only Vera C. Rubin Observatory, but one of the celestial specimens Rubin Observatory will observe when it comes online: the Milky Way. The bright halo of gas and stars on the left side of the image highlights the very center of the Milky Way galaxy. The dark path that cuts through this center is known as the Great Rift, because it gives the appearance that the Milky Way has been split in half, right through its center and along its radial arms. B. Quint, Rubin Observatory/NSF/AURA
This image combines 678 separate images taken by NSF–DOE Vera C. Rubin Observatory in just over seven hours of observing time. Combining many images in this way clearly reveals otherwise faint or invisible details, such as the clouds of gas and dust that comprise the Trifid nebula (top) and the Lagoon nebula, which are several thousand light-years away from Earth. NSF–DOE Vera C. Rubin Observatory
This image captures a small section of NSF–DOE Vera C. Rubin Observatory’s view of the Virgo Cluster, offering a vivid glimpse of the variety in the cosmos. Visible are two prominent spiral galaxies, three merging galaxies, galaxy groups both near and distant, stars within our own Milky Way, and much more. NSF–DOE Vera C. Rubin Observatory
Made from over 1100 images captured by NSF-DOE Vera C. Rubin Observatory, this image contains an immense variety of objects. This includes about 10 million galaxies, roughly .05% of the approximately 20 billion galaxies Rubin Observatory will capture in the next decade. NSF–DOE Vera C. Rubin Observatory
Take a First Look at the Vera C. Rubin Images: Millions of Galaxies and Thousands of Asteroids
The first images from the NSF-DOE Vera C. Rubin Observatory have been released. The telescope captured 10 million galaxies, thousands of asteroids, and stars across the Milky Way. The images are only just scratching the surface of Rubin’s mission for the next 10 years. In 2025, Rubin’s real mission will begin: the Legacy Survey of Space and Time (LSST) The mission will take photos of the night sky every night for 10 years to help us map the Milkyway, expand our understanding of dark matter, take stock of everything in our Solar System, and study transient objects that appear to change color or brightness. It is located on the summit of Cerro Pachón in Chile and was named after Vera Rubin, a pioneer in dark matter research. Within the observatory is a powerful 8.4-meter telescope, which has the largest digital camera ever built, according to the press release. It will take more data than what has already been collected by all other optical observatories combined.
“NSF-DOE Rubin Observatory will capture more information about our universe than all optical telescopes throughout history combined,” said Brian Stone, performing the duties of the NSF director, in a press release. “Through this remarkable scientific facility, we will explore many cosmic mysteries, including the dark matter and dark energy that permeate the universe.”
Without further ado, here is the first look of the images from the NSF-DOE Vera C. Rubin Observatory.
Vera C. Rubin Image: Millions of Galaxies
Compiled from over 1,100 images, Rubin gives us a better look at beautiful spiral galaxies and other stars. In this image, the observatory captured 10 million galaxies, which is approximately 0.05 percent of the roughly 20 billion galaxies it is set to capture during its 10-year mission.
Vera C. Rubin Image: Trifid and Lagoon Nebulas
(Image Credit: NSF–DOE Vera C. Rubin Observatory)
According to Rubin, this image of the Trifid and Lagoon nebulas, which are thousands of light-years away from Earth, combines 678 photos taken over a seven-hour period. The combination of the images helps highlight details, such as gas clouds and dust that might have otherwise gone unseen.
In this image, the Trifid nebula is located at the top right, while the Lagoon nebula is located at the bottom.
Vera C. Rubin Image: Virgo Cluster 1 & 2
(Image Credit: NSF-DOE Vera C. Rubin Observatory)
Above is only one section of the Virgo cluster that Rubin captured. Galaxies are observed in the background while stars from the Milky Way shine bright in the foreground.
(Image Credit: NSF-DOE Vera C. Rubin Observatory)
This next image is another section of the Virgo cluster. In this image, we can see two prominent spiral galaxies in the bottom right corner. Above them, we can see three galaxies merging. Beyond that is so much more to explore.
Vera C. Rubin Image: Thousands of Asteroids
During a 10-hour observation period, Rubin discovered over 2,000 new asteroids in our Solar System. Seven of these asteroids are near Earth, though they pose no threat. Other observatories across the world discovered about 20,000 asteroids, and Rubin is expected to identify millions more within the first two years of its upcoming mission.
More about the Vera C. Rubin Observatory
Rubin is located on the summit of Cerro Pachón in Chile and was named after Vera C. Rubin, a pioneer in dark matter research. The location has optimal dark skies and a dry climate that make it ideal for capturing images beyond our planet. Within the observatory is a powerful 8.4-meter telescope, which has the largest digital camera ever built.
Later in 2025, Rubin’s real mission will begin: the Legacy Survey of Space and Time (LSST). The mission will take photos of the night sky every night for 10 years to help us map the Milky Way, expand our understanding of dark matter, take stock of everything in our Solar System, and study transient objects that appear to change color or brightness.
Within the first year of this mission alone, Rubin will gather more data than what has already been collected by all other optical observatories combined, according to the press release. Rubin will give us a higher definition look at the Universe.
“Releasing our first scientific imagery marks an extraordinary milestone for NSF–DOE Rubin Observatory. It represents the culmination of about two decades of dedication, innovation, and collaboration by a global team,” said Željko Ivezić, Director of Rubin Observatory Construction in the press release. “With construction now complete, we’re turning our eyes fully to the sky — not just to take images, but to begin a whole new era of discovery.”
Read More: How Vera C. Rubin Revolutionized Dark Matter
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A graduate of UW-Whitewater, Monica Cull wrote for several organizations, including one that focused on bees and the natural world, before coming to Discover Magazine. Her current work also appears on her travel blog and Common State Magazine. Her love of science came from watching PBS shows as a kid with her mom and spending too much time binging Doctor Who.