Virgo Galaxy Cluster: Wide-field view | Introducing the Vera C. Rubin Observatory
Introducing the first riches from the National Science Foundation–Department of Energy Vera C. Rubin Observatory's cosmic treasure chest, a wealth of data that will help scientists make countless new discoveries about our Universe. This image, one of the first released by Rubin Observatory, exposes a Universe teeming with stars and galaxies—transforming seemingly empty, inky-black pockets of space into glittering tapestries for the first time. Only Rubin can quickly produce such large images with this much color and richness.
Here, Rubin’s view is focused on the southern region of the Virgo Cluster, about 55 million light-years away from Earth and the nearest large collection of galaxies to our own Milky Way.
What's in this image?
The image offers a stunning variety of objects—from bright stars ranging from blue to red in color, to nearby blue spiral galaxies, to distant red galaxy groups—demonstrating the broad range of science made possible by Rubin data. During the 10-year Legacy Survey of Space and Time, scientists around the world will access Rubin’s treasure trove of data to address questions like: How did the Milky Way form? What makes up the 95% of the Universe we can’t see? What will a detailed inventory of Solar System objects reveal? What will we learn from watching hundreds of millions of changes in the night sky over 10 years?
The image offers a stunning variety of objects—from bright stars ranging from blue to red in color, to nearby blue spiral galaxies, to distant red galaxy groups—demonstrating the broad range of science made possible by Rubin data. During the 10-year Legacy Survey of Space and Time, scientists around the world will access Rubin’s treasure trove of data to address questions like: How did the Milky Way form? What makes up the 95% of the Universe we can’t see? What will a detailed inventory of Solar System objects reveal? What will we learn from watching hundreds of millions of changes in the night sky over 10 years?
Apart from a few foreground stars in our own Milky Way, the myriad specks of light captured here make up a rich tapestry of about 10 million galaxies— just 0.05% of the roughly 20 billion galaxies Rubin will image during its 10-year Legacy Survey of Space and Time (LSST). By the end of the survey, Rubin will have revealed this level of detail across the entire southern sky.
How was the image created?
In addition to showcasing the richness and variety of celestial light in (this area), this deep, 15-square-degree image provides a sample of the way Rubin will observe during the main survey. Each individual exposure taken by Rubin Observatory covers 10 square degrees, (about 45 full moons). Combining multiple exposures of the same place on the sky—taken at different times and with different color filters—reveals extremely faint details that would not be captured in a single exposure. The 1185 exposures combined to make this image were taken over a period of just 7 nights. Rubin Observatory is the only astronomical tool in existence that can assemble an image this wide and deep so quickly.
In addition to showcasing the richness and variety of celestial light in (this area), this deep, 15-square-degree image provides a sample of the way Rubin will observe during the main survey. Each individual exposure taken by Rubin Observatory covers 10 square degrees, (about 45 full moons). Combining multiple exposures of the same place on the sky—taken at different times and with different color filters—reveals extremely faint details that would not be captured in a single exposure. The 1185 exposures combined to make this image were taken over a period of just 7 nights. Rubin Observatory is the only astronomical tool in existence that can assemble an image this wide and deep so quickly.
The bright stars scattered throughout this image belong to our home galaxy. By tracking their positions, brightness, and for some, even their motion over time, Rubin will help map the Milky Way in extraordinary detail—revealing its structure, history, and how it has evolved over time. With observations of never-before-seen stellar streams, dwarf galaxies, and more, Rubin data will help scientists investigate the dynamic past of our cosmic neighborhood.
What's coming next
This image also offers a starting point for watching the ever-changing sky. Rubin will return to this same region many times over the coming decade, catching brief but important events like supernova explosions and the flares from stars as they are consumed by hungry black holes. Rubin’s software will automatically compare new images to templates built from previous images, identifying up to 10 million changes each night and providing insight into short-lived cosmic phenomena and objects in motion.
This image also offers a starting point for watching the ever-changing sky. Rubin will return to this same region many times over the coming decade, catching brief but important events like supernova explosions and the flares from stars as they are consumed by hungry black holes. Rubin’s software will automatically compare new images to templates built from previous images, identifying up to 10 million changes each night and providing insight into short-lived cosmic phenomena and objects in motion.
On the largest scales, scientists will use Rubin’s observations of galaxies like those seen here to investigate two of the Universe’s biggest mysteries: dark matter and dark energy. By mapping the shapes and distributions of galaxies over time, scientists can infer the underlying structure of dark matter and observe how the expansion of the Universe is being influenced by dark energy.
This image was captured by the Rubin Observatory using the 3200-megapixel LSST Camera—the largest digital camera in the world. Rubin Observatory will scan the sky every night for 10 years, creating an ultra-wide, ultra-high-definition, time-lapse record of our Universe.
Credit: RubinObs / NOIRLab / SLAC / NSF / DOE / AURA
Release Date: June 23, 2025
Release Date: June 23, 2025
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