This stunning 5 Gigapixel Space photo has just been recorded by the world’s most powerful camera – here is how you can download it
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- Vera C. Rubin Observatory has released his first full resolution image
- It was recorded using an ultra-powerful 3,200 megapixel digital camera
- The telescope will scan the air on dark matter, asteroids and planet nine
The most powerful digital camera in the world has taken its first photos and they reveal the cosmos in amazing detail. Separated as part of the ‘first look’ campaign of the Vera C. Rubin Observatory, the composite image lays a panoramic image of the Trifid and Lagune Nevels – a region where new stars are formed.
The stills come from the largest digital camera ever made. With a resolution of 3,200MP, it is the central component of the telescope at the Rubin Observatory in Chile. By capturing a scene at about 4-5,000 light years from the earth, the images offer a spectacular glimpse of the star machines of our universe.
The full-size image, which you can Download hereconsists of 678 individual exposures and a total of around five gigapixels measures. A further glance reveals stellar clouds of dust and gas in breathtaking color and detail. More impressive than the scale, however, is how quickly the observatory produced the image: it only took 7.2 hours.
That makes the Rubin unique under space telescopes. By working quickly and covering an ultra -wide field of vision in every frame, it is able to map large areas in a short time. The results are so scientifically valuable as they are beautiful. By revealing regions of the universe in new depth, they enable researchers to promote their understanding of our cosmic environment.
All eyes to the sky
These early images mark the start of a new era in astronomy. The Rubin Observatory is about to start with the Legacy Survey of Space and Time (LSST), a ten -year mission to map the nightly heaven in unprecedented detail. It is a project that could fundamentally change our understanding of the universe – not just because of what it reveals, but because of how often.
In contrast to traditional observatories that focus on narrow slices of space, the Rubin telescope is designed to scan the entire southern hemisphere to scan the three nights. The dome move quickly to cover the sky and make images more than once per minute for about ten hours. With this regular cadence, astronomers can more easily detect changes.
The observatory is on top of Cerro Pachón, a mountain top in the north of Chile. The remote location, great height and dry climate create almost perfect conditions for astronomy: the thinner air and the lack of light pollution enable the telescope to take advantage of a clearer, dark nocturnal skies. That gives the Rubin Observatory a wide observational window.
Trifid and Lagune Nebulae – Video – and – YouTube
During his test phase, it detected more than 2,000 previously unknown asteroids in just 10 hours, which emphasized the potential of the telescope as an early warning system for our planet.
The observatory is also expected to play a leading role in hunting the hypothetical planet Nine, a solid heavenly body that some scientists believe that they hide over the distant edge of our solar system. The powerful optics and sweeping make the Rubin telescope the perfect tool to see what is lurking beyond Pluto’s job.
But perhaps Rubin’s most ambitious purpose relates to what cannot be seen. By recording data from countless galaxies, the Observatory Researchers will help to get a better picture of the invisible dark matter that forms most of the universe – and the mysterious dark energy that causes its expansion.
The key to the mission is the camera itself, the largest ever installed on a telescope. The size of a small car, it catches part of the sky equal to 45 full moons in a single shot.
In the course of his survey, Rubin is expected to generate more than 60 petabytes of data. It will be up to the scientific community of the world to analyze the results and to decipher their secrets.
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