Oak Ridge National Laboratory Adds Quantum Information Science Home.
New research facility will serve ORNL’s growing mission in computing, materials research and development. Energy Secretary Rick Perry, Congressman Chuck Fleischmann and lab officials today broke ground on a multipurpose research facility that will provide state-of-the-art laboratory space for expanding scientific activities at the Department of Energy’s Oak Ridge National Laboratory.
The new Translational Research Capability, or TRC, will be purpose-built for world-leading research in computing and materials science and will serve to advance the science and engineering of quantum information.
“Through today’s groundbreaking, we’re writing a new chapter in research at the Translational Research Capability Facility,” said U.S. Secretary of Energy Rick Perry. “This building will be the home for advances in Quantum Information Science, battery and energy storage, materials science, and many more. It will also be a place for our scientists, researchers, engineers, and innovators to take on big challenges and deliver transformative solutions.”
With an estimated total project cost of $95 million, the TRC, located in the central ORNL campus, will accommodate sensitive equipment, multipurpose labs, heavy equipment and inert environment labs. Approximately 75 percent of the facility will contain large, modularly planned and open laboratory areas with the rest as office and support spaces.
“This research and development space will advance and support the multidisciplinary mission needs of the nation’s advanced computing, materials research, fusion science and physics programs,” ORNL Director Thomas Zacharia said. “The new building represents a renaissance in the way we carry out research allowing more flexible alignment of our research activities to the needs of frontier research.”
The flexible space will support the lab’s growing fundamental materials research to advance future quantum information science and computing systems. The modern facility will provide atomic fabrication and materials characterization capabilities to accelerate the development of novel quantum computing devices. Researchers will also use the facility to pursue advances in quantum modeling and simulation, leveraging a co-design approach to develop algorithms along with prototype quantum systems.
The new laboratories will provide noise isolation, electromagnetic shielding and low vibration environments required for multidisciplinary research in quantum information science as well as materials development and performance testing for fusion energy applications. The co-location of the flexible, modular spaces will enhance collaboration among projects.
At approximately 100,000 square feet, the TRC will be similar in size and appearance to another modern ORNL research facility, the Chemical and Materials Sciences Building, which was completed in 2011 and is located nearby.
The facility’s design and location will also conform to sustainable building practices with an eye toward encouraging collaboration among researchers. The TRC will be centrally located in the ORNL main campus area on a brownfield tract that was formerly occupied by one of the laboratory’s earliest, Manhattan Project-era structures.
ORNL began a modernization campaign shortly after UT-Battelle arrived in 2000 to manage the national laboratory. The new construction has enabled the laboratory to meet growing space and infrastructure requirements for rapidly advancing fields such as scientific computing while vacating legacy spaces with inherent high operating costs, inflexible infrastructure and legacy waste issues.
The construction is supported by the Science Laboratory Infrastructure program of the DOE Office of Science.
ORNL is managed by UT-Battelle for the Department of Energy’s Office of Science, the single largest supporter of basic research in the physical sciences in the United States. DOE’s Office of Science is working to address some of the most pressing challenges of our time. For more information, please visit http://science.energy.gov/.
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