Latest news with #VeraRubin
Vox
an hour ago
- Science
- Vox
How the largest digital camera ever made is revolutionizing our view of space
is a senior editorial director at Vox overseeing the climate teams and the Unexplainable and The Gray Area podcasts. He is also the editor of Vox's Future Perfect section and writes the Good News newsletter. He worked at Time magazine for 15 years as a foreign correspondent in Asia, a climate writer, and an international editor, and he wrote a book on existential risk. Ten areas in the sky were selected as 'deep fields' that the Dark Energy Camera imaged several times during the survey, providing a glimpse of distant galaxies and helping determine their 3D distribution in the cosmos. The image is teeming with galaxies — in fact, nearly every single object in this image is a galaxy. Last Thursday, I took my son to the Rose Center for Earth and Space at New York's Museum of Natural History. In the Hayden Planetarium, we watched a simulation of the Milky Way bloom above us, while the actor Pedro Pascal — who truly is everywhere — narrated the galactic dance unfolding on the screen. It was breathtaking. But it didn't compare to what was blasted around the world just a few days later, as the new Vera C. Rubin Observatory began broadcasting its 'first light' — its inaugural images of the cosmos. I found myself pinching-to-zoom through a picture that contains roughly 10 million galaxies in a single frame, a vista so vast it would take 400 4-K TVs to display at full resolution. I could hold the universe itself on my screen. Eye on the sky Perched 8,660 feet up Cerro Pachón in the Chilean Andes, where the crystal-clear nights provide an exceptionally clear window into space, the Vera C. Rubin Observatory began construction in 2015 with funding from the US National Science Foundation (NSF) and the US Department of Energy. Named for the pioneering astronomer Vera Rubin, whose work on galaxy rotation helped prove the existence of dark matter, the observatory was built to run a single, audacious experiment: the 10-year Legacy Survey of Space and Time. It will photograph the entire Southern Hemisphere sky every few nights to tackle four grand goals: unmask dark matter and dark energy, inventory the Solar System's asteroids and comets, chart the Milky Way's formation, and capture every transient cosmic event. What makes Rubin so special is its eye, which is a marvel. At its core is a 27-foot-wide dual mirror cast from 51,900 pounds of molten glass that is still light enough to sweep across the sky in seconds. The mirror directs a flow of light from the cosmic depths to the 3.2-gigapixel LSST Camera, a 5-by-10-feet digital jumbotron that is the largest digital camera ever made. It's like a massive magnifying glass paired with the world's sharpest DSLR: Together they capture a swath of the night sky equivalent to 45 full moons every 30 seconds. Related Astronomers spotted something perplexing near the beginning of time And those images, which will be continuously shared with the world, are jaw-dropping. The headlining shot from Rubin's debut, nicknamed 'Cosmic Treasure Chest,' stitches together 1,185 exposures of the Virgo Cluster, our nearest major collection of galaxies, some 55 million light-years away. But the Rubin Observatory is about much more than producing pretty cosmic wallpaper. Its unprecedented scale gives it the ability to search for answers to grand questions about space science. The NSF notes that Rubin will gather more optical data in its first year than all previous ground telescopes combined, turning the messy, ever-changing sky into a searchable movie. Cosmic Treasure Chest. RubinObs/NOIRLab/SLAC/NSF/DOE/AURA It's not just pretty pictures As I've written before, the world has made great strides in planetary defense: Our ability to detect and eventually deflect asteroids that could be on a collision course with Earth. Rubin has already begun paying dividends toward that goal. In a mere 10 hours of engineering data, its detection software identified 2,104 brand-new asteroids — including seven near-Earth objects, heavenly bodies whose orbit will bring them near-ish our planet. That haul came from just a thumbnail-sized patch of sky; once Rubin begins its nightly scan of the whole Southern Hemisphere, it's projected to catalog over 5 million asteroids and roughly 100,000 NEOs over the next decade, tripling today's inventory. That will help NASA finally reach its congressionally mandated target of identifying 90 percent of the 25,000 city-killer-class NEOs (those over 140 meters) estimated to be out there. How powerful is Rubin's eye? 'It took 225 years of astronomical observations to detect the first 1.5 million asteroids,' Jake Kurlander, a grad student astronomer at the University of Washington, told 'Rubin will double that number in less than a year.' Trifid and Lagoon Nebulae. RubinObs/NOIRLab/SLAC/NSF/DOE/AURA And the images that Rubin captures will go out to the entire world. Its Skyviewer app will allow anyone to zoom in and out of the corners of space that catch Rubin's eye, including celestial objects so new that most of them don't have names. Looking at the app gives you a sense of what it must have been like to be one of the first human beings, gazing up at a sky filled with wonder and mystery. Finding perspective in a pixel It might seem strange to highlight a telescope at a moment when the world feels as if it is literally on fire. But the Vera Rubin Observatory isn't just a triumph of international scientific engineering, or an unparalleled window on the universe. It is the ultimate perspective provider. If you open the Virgo image and zoom all the way out, Earth's orbit would be smaller than a single pixel. Yet that same pixel is where thousands of engineers, coders, machinists, and scientists quietly spent a decade building an eye that can watch the rest of the universe breathe, and then share those images with all of their fellow humans. Seeing Rubin's images brought to mind the lines of Walt Whitman's 'When I Heard the Learn'd Astronomer.' I wander'd off by myself, In the mystical moist night-air, and from time to time, Look'd up in perfect silence at the stars. On days when life on our little world feels chaotic, Rubin's first-light view offers a valuable reminder: We're just one tiny part in a tapestry of 10 million galaxies, looking up from our planet at the endless stars. A version of this story originally appeared in the Good News newsletter. Sign up here!
Yahoo
13 hours ago
- Science
- Yahoo
Hello, neighbor! See the Andromeda galaxy like never before in stunning new image from NASA's Chandra telescope (video)
When you buy through links on our articles, Future and its syndication partners may earn a commission. The galaxy next door to the Milky Way, Andromeda, has never looked as stunning as it does in a new image from NASA's Chandra X-ray space telescope. The image of the galaxy, also known as Messier 31 (M31), was created with assistance from a range of other space telescopes and ground-based instruments including the European Space Agency (ESA) XMM-Newton mission, NASA's retired space telescopes GALEX and the Spitzer Space Telescope as well as the Infrared Astronomy Satellite, COBE, Planck, and Herschel, in addition to radio data from the Westerbork Synthesis Radio Telescope. All these instruments observed Andromeda in different wavelengths of light across the electromagnetic spectrum, with astronomers bringing this data together to create a stunning and intricate image. The image is a fitting tribute to astronomer Vera C. Rubin, who was responsible for the discovery of dark matter thanks to her observations of Andromeda. As the closest large galaxy to the Milky Way, at just around 2.5 million light-years away, Andromeda has been vital in allowing astronomers to study aspects of galaxies that aren't accessible from our own galaxy. For example, from inside the Milky Way, we can't see our galaxy's spiral arms, but we can see the spiral arms of Andromeda. Every wavelength of light that was brought together to create this incredible new image of Andromeda tells astronomers something different and unique about the galaxy next door. For example, the X-ray data provided by Chandra has revealed the high-energy radiation released from around Andromeda's central supermassive black hole, known as M31*. M31* is considerably larger than the supermassive black hole at the heart of the Milky Way, known as Sagittarius A* (Sgr A*). While our home supermassive black hole has a mass 4.3 million times that of the sun, M31* dwarfs it with a mass 100 million times that of the sun. M31* is also notable for its occasional flares, one of which was observed in X-rays back in 2013, while Sgr A* is a much "quieter" black hole. Andromeda was chosen as a tribute to Rubin because this neighboring galaxy played a crucial role in the astronomer's discovery of a missing element of the universe. An element that we now call dark matter. In the 1960s, Rubin and collaborators precisely measured the rotation of Andromeda. They found that the speed at which this galaxy's spiral arms spun indicated that the galaxy was surrounded by a vast halo of an unknown and invisible form of matter. The mass of this matter provided the gravitational influence that was preventing Andromeda from flying apart due to its rotational speed. The gravity of its visible matter wouldn't have been sufficient to hold this galaxy then, astronomers have discovered that all large galaxies seem to be surrounded by similar haloes of what is now known as dark matter. This has led to the discovery that the matter which comprises all the things we see around us — stars, planets, moons, our bodies, next door's cat — accounts for just 15% of the "stuff" in the cosmos, with dark matter accounting for the other 85%. The finding has also prompted the search for particles beyond the standard model of particle physics that could compose dark matter. Thus, there's no doubt that Rubin's work delivered a watershed moment in astronomy, and one of the most important breakthroughs in modern science, fundamentally changing our concept of the universe. Related Stories: — How did Andromeda's dwarf galaxies form? Hubble Telescope finds more questions than answers — The Milky Way may not collide with neighboring galaxy Andromeda after all: 'From near-certainty to a coin flip' — Gorgeous deep space photo captures the Andromeda Galaxy surrounded by glowing gas June 2025 has been a brilliant month of recognition of Rubin's immense impact on astronomy and her lasting legacy. In addition to this tribute image, the Vera C. Rubin Observatory released its first images of the cosmos as it gears up to conduct a 10-year observing program of the southern sky called the Legacy Survey of Space and Time (LSST). Additionally, in recognition of Rubin's monumental contributions to our understanding of the universe, the United States Mint recently released a quarter featuring Rubin as part of its American Women Quarters Program. She is the first astronomer to be honored in the series.
Yahoo
13 hours ago
- Science
- Yahoo
Listen to the Andromeda galaxy's stars played as musical notes in eerie NASA video
When you buy through links on our articles, Future and its syndication partners may earn a commission. The Andromeda galaxy's spiralling stars are played as musical notes in a new NASA observatory video, creating a cosmic crescendo that's out of this world. The sonification video, released by NASA's Chandra X-ray Observatory, combines observations of the Andromeda galaxy collected by some of the world's most powerful telescopes, according to a NASA statement. Chandra also released a spectacular composite image of the galaxy, which is the closest spiral galaxy to our own Milky Way. Researchers created the composite image by stacking photos taken in different light wavelengths, merging radio, infrared, optical, ultraviolet and X-ray data. The researchers then converted those images to sound by assigning a separate range of notes to each of these wavelengths. In the video, a line passes across the lights, playing each assigned note like keys on a piano. "Musical notes ring out when the line encounters light," a representative for NASA wrote in the statement. "The lower the wavelength energy, the lower the pitches of the notes. The brighter the source, the louder the volume." NASA described the composite image as a tribute to pioneering astronomer Vera Rubin, who studied Andromeda. The tribute comes days after a new observatory named after Rubin released its first images. The Vera C. Rubin Observatory features the world's largest digital camera and will spend the next decade creating a time-lapse movie of the universe. Related: 6 incredible objects hidden in Vera C. Rubin Observatory's mind-boggling first image Andromeda, or Messier 31 (M31), is located around 2.5 million light-years from the Milky Way. Studying the galaxy has led to many scientific discoveries. For example, Rubin and her colleagues' observations of Andromeda led them to conclude that there must be an unseen matter influencing how its spiral arms rotate, according to the statement. The research was pivotal in furthering scientists' understanding of dark matter, an enigmatic non-luminous substance that shapes the universe. Researchers created the new image and soundscape of Andromeda by combining different data collected over many years. For example, the X-ray image comes from data collected by Chandra and the European Space Agency's X-ray Multi-Mirror Mission (XMM-Newton). Researchers used this data to identify high-energy radiation around the supermassive black hole at the heart of Andromeda, according to the statement. RELATED STORIES —Monster black hole jet from the early universe is basking in the 'afterglow' of the Big Bang —'This doesn't appear in computer simulations': Hubble maps chaotic history of Andromeda galaxy, and it's nothing like scientists expected —James Webb telescope unveils largest-ever map of the universe, spanning over 13 billion years The images and sounds aren't just for fun. They are another way of examining Andromeda, and therefore a learning opportunity. Andromeda offers a view of a spiral galaxy that we can't get from the Milky Way, given we're inside it, and so studying Andromeda furthers researchers' understanding of our own spiral galaxy, according to the statement. "This collection helps astronomers understand the evolution of the Milky Way, our own spiral galaxy, and provides a fascinating insight into astronomical data gathering and presentation," the NASA representative wrote.
Yahoo
a day ago
- Science
- Yahoo
Chile observatory captures the universe with 3,200-megapixel camera
SANTIAGO (Reuters) -Chile's Vera C. Rubin Observatory, which boasts the world's largest digital camera, has begun displaying its first images of the cosmos, allowing astronomers to figure out how the solar system formed and even whether an asteroid poses a threat to Earth. Located on Pachon Hill in the northern region of Coquimbo, the 8.4-meter (27-1/2-foot) telescope has a 3,200-megapixel camera feeding a powerful data processing system. "It's really going to change and challenge the way people work with their data," said William O'Mullane, a project manager focused on data at Vera Rubin. The observatory detected over 2,100 previously unseen asteroids in 10 hours of observations, focusing on a small area of the visible sky. Its ground-based and space-based peers discover in total some 20,000 asteroids a year. O'Mullane said the observatory would allow astronomers to collect huge amounts of data quickly and make unexpected finds. "Rather than the usual couple of observations and writing an (academic) paper. No, I'll give you a million galaxies. I'll give you a million stars or a billion even, because we have them: 20 billion galaxy measurements," he said. The center is named after American astronomer Vera C. Rubin, a pioneer in finding conclusive evidence of the existence of large amounts of invisible material known as dark matter. Each night, Rubin will take some 1,000 images of the southern hemisphere sky, letting it cover the entire southern sky every three or four nights. The darkest skies above the arid Atacama Desert make Chile one of the best places worldwide for astronomical observation. "The number of alerts the telescope will send every night is equivalent to the inboxes of 83,000 people. It's impossible for someone to look at that one by one," said astrophysicist Francisco Foster. "We're going to have to use artificial intelligence tools."
Yahoo
a day ago
- Science
- Yahoo
Chile observatory captures the universe with 3,200-megapixel camera
SANTIAGO (Reuters) -Chile's Vera C. Rubin Observatory, which boasts the world's largest digital camera, has begun displaying its first images of the cosmos, allowing astronomers to figure out how the solar system formed and even whether an asteroid poses a threat to Earth. Located on Pachon Hill in the northern region of Coquimbo, the 8.4-meter (27-1/2-foot) telescope has a 3,200-megapixel camera feeding a powerful data processing system. "It's really going to change and challenge the way people work with their data," said William O'Mullane, a project manager focused on data at Vera Rubin. The observatory detected over 2,100 previously unseen asteroids in 10 hours of observations, focusing on a small area of the visible sky. Its ground-based and space-based peers discover in total some 20,000 asteroids a year. O'Mullane said the observatory would allow astronomers to collect huge amounts of data quickly and make unexpected finds. "Rather than the usual couple of observations and writing an (academic) paper. No, I'll give you a million galaxies. I'll give you a million stars or a billion even, because we have them: 20 billion galaxy measurements," he said. The center is named after American astronomer Vera C. Rubin, a pioneer in finding conclusive evidence of the existence of large amounts of invisible material known as dark matter. Each night, Rubin will take some 1,000 images of the southern hemisphere sky, letting it cover the entire southern sky every three or four nights. The darkest skies above the arid Atacama Desert make Chile one of the best places worldwide for astronomical observation. "The number of alerts the telescope will send every night is equivalent to the inboxes of 83,000 people. It's impossible for someone to look at that one by one," said astrophysicist Francisco Foster. "We're going to have to use artificial intelligence tools."
