By Dean Murray via SWNS
Say cheese! The world’s largest digital camera has been completed.
The Legacy Survey of Space and Time (LSST) Camera is powerful enough to clearly snap a golf ball 15 miles away.
Once in place on a telescope in Chile, the 3200-megapixel camera will be tasked with gathering an unprecedented amount of data about our Universe, yielding new insights into everything from dark energy to asteroids.
After two decades of work, scientists and engineers at the U.S. Department of Energy’s SLAC National Accelerator Laboratory in Menlo Park, California and their collaborators are celebrating the camera’s completion.
Once mounted on Vera C. Observatory’s Simonyi Survey Telescope, it will undertake a ten-year Legacy Survey of Space and Time, generating an enormous trove of data on the southern night sky that researchers will mine for new insights into dark energy, dark matter, the changing night sky, the Milky Way and our Solar System.
Vera C. Rubin Observatory is jointly funded by the U.S. National Science Foundation (NSF) and the U.S. Department of Energy (DOE), and is a Program of NSF NOIRLab, which, along with SLAC, will cooperatively operate Rubin.
“With the completion of the unique LSST Camera at SLAC and its imminent integration with the rest of Rubin Observatory systems in Chile, we will soon start producing the greatest movie of all time and the most informative map of the night sky ever assembled,” said Director of Rubin Observatory Construction and University of Washington professor Željko IveziÄ.
To achieve that goal, the SLAC team and its partners built the largest digital camera ever constructed for astronomy. The camera is roughly the size of a small car and weighs around 3000 kilograms (6600 lbs), and its front lens is over 1.5 meters (5 feet) across — the largest lens ever made for this purpose.
Another lens, that is 90 centimeters (3 feet) wide, had to be specially designed to seal the vacuum chamber that houses the camera’s enormous focal plane. That focal plane is made up of 201 individual custom-designed CCD sensors, and it is so flat that its surface varies by no more than a tenth of the width of a human hair. The pixels themselves are only 0.01 mm (10 microns) wide.
NSF NOIRLab say the camera’s most important feature is its ability to capture detail over an unprecedented field of view. It is so great that it would take hundreds of ultra-high-definition TVs to display just one of its images at full size.
“Its images are so detailed that it could resolve a golf ball from around 25 kilometers (15 miles) away, while covering a swath of the sky seven times wider than the full Moon. These images, with billions of stars and galaxies, will help unlock the secrets of the Universe,” said SLAC professor and Rubin Observatory Deputy Director and Camera Program Lead Aaron Roodman.
“And those secrets are increasingly important to reveal,” said Kathy Turner, program manager for the DOE’s Cosmic Frontier Program. “More than ever before, expanding our understanding of fundamental physics requires looking farther out into the Universe. With the LSST Camera at its core, Rubin Observatory will delve deeper than ever before into the cosmos and help answer some of the hardest, most important questions in physics today.”
Now that the LSST Camera is complete and has been thoroughly tested at SLAC, it will be packed up and shipped to Chile and driven 2737 meters (8980 feet) up Cerro Pachón in the Andes, where it will be hoisted onto the Simonyi Survey Telescope later this year.
“Rubin Observatory Operations is very excited to see this major milestone about to be completed by the construction team,” said Bob Blum, Director for Operations for Vera C. Rubin Observatory. “Combined with the progress of coating the primary mirror, this brings us confidently and much closer to starting the Legacy Survey of Space and Time. It is happening.”
