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The 3,200-megapixel LSST Camera is being tested inside the clean room at SLAC. The camera is the central component of the NSF–DOE Vera C. Rubin Observatory.

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At sunset in 2024, a drone captures the ridge of Cerro Pachón in Chile, with the NSF-DOE Vera C. Rubin Observatory in the foreground and Gemini South and SOAR visible in the distance—facilities located on land managed by AURA. Rubin observatory is preparing to begin a 10-year survey of the southern sky, capturing a new image every 30 seconds and creating the most comprehensive 3D time-lapse of the universe ever attempted.

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A drone captures a sweeping view of the NSF-DOE Vera C. Rubin Observatory at sunset in 2024, perched atop Cerro Pachón in Chile. The observatory is preparing to begin a 10-year survey of the southern sky, taking a new image every 30 seconds and collecting around 2,000 images every three nights. This ambitious effort will create an unprecedented 3D time-lapse of the universe.

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Travis Lange is seen reflected in the LSST Camera’s focal plane as he inspects the camera assembly in 2022 inside SLAC’s clean room. The focal plane holds 189 sensors that make up the camera’s 3.2-gigapixel imaging system, designed to capture detailed views of the night sky for the NSF-DOE Vera C. Rubin Observatory' 10-year survey.

Inside SLAC’s clean room, in 2019, one of the first sensor rafts for the LSST Camera is carefully loaded into the camera’s cryostat. Each raft contains a group of 9 sensors that will be cooled during operation to detect faint light from distant galaxies. This step was part of the assembly of the 3.2-gigapixel LSST Camera, now installed at the NSF-DOE Vera C. Rubin Observatory in Chile.

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NSF–DOE Vera C. Rubin Observatory is about to embark on its quest to capture the cosmos, marking the culmination of decades of work by thousands of people across the globe.

A group photo in front of a large telescope mounting system.

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Shweta Saraf and her team work to ensure the LCLS beamline runs without interruption.

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One-quintillionth of a second lasing breakthrough could lead to next-generation X-ray technologies, improving imaging in medical, material, and quantum science.

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News Feature

The upgrades to SSRL’s resonant soft X-ray scattering beam line could reveal the hidden physics in high-temperature superconductors.

A gold beam strikes a sample inside a copper colored apparatus. A white beam emerges.

News Feature

Shweta Saraf and her team work to ensure the LCLS beamline runs without interruption.

News Feature

One-quintillionth of a second lasing breakthrough could lead to next-generation X-ray technologies, improving imaging in medical, material, and quantum science.

News Feature

The upgrades to SSRL’s resonant soft X-ray scattering beam line could reveal the hidden physics in high-temperature superconductors.

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NSF–DOE Vera C. Rubin Observatory will add an unprecedented amount of cosmological data to the study of the structure and expansion of the Universe.

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News Brief

SLAC researchers drew on advanced computation and X-ray methods to track down a water-splitting copper catalyst.

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News Brief

The team watched how a strained strontium titanate membrane crossed into ferroelectric – and quantum – territory.

A gold beam bounces off an atomic lattice made of red and blue spheres.

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Please join us for a workshop being hosted as part of SLAC National Accelerator Laboratory’s X-ray and Ultrafast Strategic Initiative. The workshop is focused...

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Stanford Synchrotron Radiation Lightsource (SSRL) at sunset — SLAC’s Stanford Synchrotron Radiation Lightsource (SSRL) provides extremely bright X-rays that scientists use in a wide range of research to probe matter on the scale of atoms and molecules. (*Olivier Bonin/SLAC National Accelerator Laboratory)*

The linac with Interstate 280 bridge and Stanford University in the distance. — The Linac Coherent Light Source (LCLS), the world’s first hard X-ray free-electron laser, allows researchers to make stop-action movies of chemistry in action and explore proteins for new pharmaceuticals. (*Olivier Bonin/SLAC National Accelerator Laboratory)*

FACET-II provides high-energy electron beams for researching revolutionary particle accelerator technologies that could make future accelerators 100 to 1,000 times smaller and a lot more capable. *(Peter Ginter/SLAC National Accelerator Laboratory)*

The Stanford-SLAC cryo-EM facility gives scientists unprecedented views of the inner workings of the cell and of technologies like batteries and solar cells. — The Stanford-SLAC CryoEM center gives scientists unprecedented views of the inner workings of the cell and of technologies like batteries and solar cells. *(Andy Freeberg/SLAC National Accelerator Laboratory)*

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To achieve our ambitious goals and keep SLAC a great place to work, the lab needs a creative, diverse and united workforce – people with a wide variety of experiences, ideas, skills and backgrounds.

Members of the MEC-Upgrade Project tri-lab collaboration on the roof patio of LCLS. — Members of the MEC Upgrade Project tri-lab collaboration on the roof patio of LCLS. (*Olivier Bonin/SLAC National Accelerator Laboratory)*

SLAC employees participated in the first campus pride parade, 2022. — SLAC employees participated in the first onsite Pride Parade on June 29, 2022. (*Jacqueline Ramseyer Orrell/SLAC National Accelerator Laboratory)*

Anna Rosa Ziefuss, Chris Crissman, Dr. Siegfried Glenzer, Griffin Glenn, and Zhijiang Chen at LCLS's laser lab. — Anna Rosa Ziefuss, Chris Crissman, Dr. Siegfried Glenzer, Griffin Glenn, and Zhijiang Chen at the HEDS (High Energy Density Science) Sector 10 Laser Lab. (*Jacqueline Ramseyer Orrell/SLAC National Accelerator Laboratory)*

Jeney Wierman of SLAC’s Structural Molecular Biology team — Jeney Wierman stands in the control room of SSRL. She, along with other members of the Structural Molecular Biology team, supports three beamlines, 12-1, 12-2 and 9-2, which are dedicated to helping research from all over the world, creating 3D atomic-resolution shapes of various SARS-CoV-2 related proteins. (*Linda McCulloch/SLAC National Accelerator Laboratory)*

The TMO Control Room 1.1 located in the Near Experimental Hall at LCLS — From left, Project Scientist Dr. Razib Obaid, Staff Scientist Ming-Fu Lin, Associate Scientist Taran Driver and Doctoral Student Erik Isele work in the TMO Control Room 1.1, located in the Near Experimental Hall at LCLS. (*Jacqueline Ramseyer Orrell*/SLAC National Accelerator Laboratory)

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SLAC is a vibrant community of diverse perspectives and expertise, all working together to solve some of the most pressing challenges of our times."
John Sarrao Lab Director

About SLAC video still frame — SLAC National Accelerator Laboratory is a Department of Energy national lab run by Stanford in the heart of Silicon Valley. We invent scientific tools to explore the universe at its biggest, its smallest and its fastest. *(Olivier Bonin/SLAC National Accelerator Laboratory)*

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