Colorado State University Begins Construction on New Laser Facility
By Fay Harvey听听
FORT COLLINS, Colo. 鈥 Colorado State University (CSU) has begun work on its new, 听state-of-the-art laser research center that will explore lasers as a viable, clean, safe and reliable energy source. The $150 million venture will be developed in partnership with Munich-based Marvel Fusion, a private company working to commercialize fusion energy through its laser technology. This development makes Fort Collins a global nexus for laser fusion research, according to a statement by the University听
The 71,000-square-foot 听Advanced Technology Lasers for Applications and Science (ATLAS) Facility comes after 40 years of laser development research on CSU鈥檚 campus that was conducted in partnership with the U.S. Department of Energy鈥檚 (DOE) Fusion Energy Sciences program in the Office of Science. A rapid global growth of laser-based research has created a demand to train the next generation of scientists, technicians and suppliers in the fusion industry. The ATLAS facility will help meet this demand by providing CSU鈥檚 student body with hands-on experience using the latest technology, further aligning with the University鈥檚 mission as a land-grant institution to advance workforce development in essential STEM fields.听
In addition, the facility will expand the campus, fostering cross-disciplinary collaboration. This interdisciplinary-focused building will support research in fields such as medicine, microchip lithography, X-ray imaging and broader foundational sciences. Situated near existing laser-research buildings, the new structure will also include relevant labs and offices, enhancing the space and capabilities of CSU鈥檚 campus.听
鈥淐SU is a leader in laser research and technology, which has led us to break ground on a building that will bring that impactful research to the next level,鈥 said Cassandra Moseley, CSU vice president for research at the facility groundbreaking in mid-October . 鈥淲e celebrate today with the scientists whose teams helped get us to this point, and with excitement for the research power and discovery that will take place in this facility.鈥濃听
Construction on the project will be managed by California-based Tetrad Corporation, with New York-based SWBR leading design and San Diego-based McCarthy Building Companies Inc., as general contractor. The lab spaces will have air purity in mind, with clean rooms up to ISO 6 classification and in-house HVAC systems to maintain tight temperature and humidity tolerances, keeping the laser systems functioning properly. Approximately 7,500 cubic yards of concrete, including 5-foot-thick walls around the target bay and a three-foot-thick slabs below the laser bay, will isolate vibrations to keep laser beams aligned. 听
CSU has been awarded various grants from the DOE that support existing facilities and future upgrades for the campus鈥 high-powered ALEPH laser, including a $12.5 million grant through the DOE鈥檚 LaserNetUs program, and a $16 million award to start an Inertial Fusion Science and Technology Hub. Funding from the DOE also grants facility access to outside researchers free of charge, furthering fusion research and supporting activity in key fields.听听
鈥淲e are eager to leverage these opportunities,鈥 said Geraldine Richmond, DOE undersecretary for science and innovation. 鈥淟aser development and experiments fit within our long-term goal of reaching fusion energy, but equally important is uncovering what we will learn in this process that will help us ultimately achieve that goal.鈥听
The ATLAS facility is set to be completed in 2026 and will sit on the CSU Foothills Campus.听