United States Department of Energy National Laboratories
The United States Department of Energy National Laboratories and Technology Centers is a system of laboratories overseen by the United States Department of Energy (DOE) for scientific and technological research. The primary mission of the DOE national laboratories is to conduct research and development (R&D) addressing national priorities: energy and climate, the environment, national security, and health.[1] Sixteen of the seventeen DOE national laboratories are federally funded research and development centers administered, managed, operated and staffed by private-sector organizations under management and operating (M&O) contracts with the DOE.[2]
The laboratories and their research mission
The DOE is the nation's largest sponsor of research in the physical sciences and engineering, and is second to the Department of Defense in supporting computer sciences and mathematics.[3] Most of that research is performed by the national laboratories.[4]
Although the national laboratories form an integrated system, each of them has its individual mission, capabilities, and structure.
The chart shows the nature of the research done at each laboratory.
- Each multipurpose science laboratory possesses a number of core capabilities and facilities that enable a wide range of multidisciplinary research.
- Each of the single program science laboratories focuses its research on fundamental research in a particular field of physical science.
- Three multipurpose security labs principally support the nuclear security mission, while also using their capabilities to perform a wide range of research.
- Each of the three energy technology labs focuses its research on a particular sector of energy technologies.
- One multipurpose environmental laboratory focuses on the research supporting the DOE's environmental management work.
All 17 of the laboratories are listed below, along with the location, establishment date, and the organization that currently operates each.
National Scientific User Facilities
The DOE Office of Science operates an extensive network of 28 national scientific user facilities.[15] A total of over 30,000 scientific users from universities, national laboratories, and technology companies use these facilities to advance their research and development. The staff of experts at each facility who build and operate the associated instruments and work with visiting scientists to mount experiments with them. This access and support is provided without charge to qualified scientific groups, with priority based on recommendations by expert review panels. All six research offices support scientific user facilities at national laboratories.
Office of Science National Scientific User Facilities | |||
---|---|---|---|
Sponsoring program office | Type of facility | User facility name & laboratory | Number of staff (approx.)/ number of scientific users (2021) |
Advanced Scientific Computing Research (ASCR)[16] | High-performance computing (HPC) facilities | Argonne Leadership Computing Facility (ALCF) @ ANL[18] | 170/1,168 |
National Energy Research Scientific Computing Center (NERSC) @ LBNL | 130/8,751 | ||
Oak Ridge Leadership Computing Facility (OLCF) @ ORNL | 180/1,696 | ||
High-performance research network | Energy Sciences Network (ESnet) @ LBNL[21] | 135/ | |
Biological and Environmental Research(BER)[22] |
Facility for atmospheric observations |
Atmospheric Radiation Measurement facility (ARM) @ PNNL (lead lab)[23] | 100/960 |
Facility for environmental molecular sciences |
Environmental Molecular Sciences Laboratory (EMSL) @ PNNL[24] | 180/801 | |
Facility for integrative genomic science |
The Joint Genome Institute (JGI) @ LBNL[25] | 250/2,180 | |
Basic Energy Sciences (BES)[26] | X-ray light source facilities[27] | The Advanced Light Source (ALS) @ LBNL[28] | 200/1,159 |
The Advanced Photon Source (APS) @ ANL[29] | 450/3,686 | ||
National Synchrotron Light Source II (NSLS-II) @ BNL[30] | 375/1,022 | ||
The Linac Coherent Light Source (LCLS) @ SLAC[31] | 326/720 | ||
The Stanford Synchrotron Radiation Lightsource (SSRL) @ SLAC[32] | 150/1030 | ||
Nanoscale Science Research Centers (NSRCs) | The Center for Functional Nanomaterials (CFN) @ BNL[34] | 65/571 | |
The Center for Integrated Nanotechnologies (CINT) @ LANL & SNL[35] | 100/721 | ||
The Center for Nanoscale Materials (CNM) @ ANL[36] | 54/702 | ||
The Center for Nanophase Materials Sciences (CNMS) @ ORNL[37] | 108/656 | ||
The Molecular Foundry (TMF) @ LBNL[38] | 67/654 | ||
Neutron Scattering Facilities | The High Flux Isotope Reactor (HFIR) @ ORNL[40] | 100/202 | |
The Spallation Neutron Source (SNS) @ ORNL[41] | 450/483 | ||
Fusion Energy Sciences (FES)[42] | Fusion Facilities | The DIII-D (tokamak) National Fusion Facility @ General Atomics[43] | NA/429 |
National Spherical Torus Experiment (NSTX) @ PPPL[44] | 300/358 | ||
High Energy Physics (HEP)[45] | Accelerator complex supporting physics experiments | The Fermilab Accelerator Complex @ FNAL[46] | 500/1,725 |
Accelerator test facilities | The Accelerator Test Facility @ BNL[47] | 16/80 | |
The Facility for Advanced Accelerator Experimental Tests (FACET) @ SLAC[48] | 25/111 | ||
History
The system of national laboratories started with the massive scientific endeavors of World War II, in which several new technologies, especially the atomic bomb, proved decisive for the Allied victory. Though the United States government had begun seriously investing in scientific research for national security in World War I, it was only in this wartime period that significant resources were committed to scientific problems, under the auspices first of the National Defense Research Committee, and later the Office of Scientific Research and Development, organized and administered by Vannevar Bush.
During the Second World War, centralized sites such as the Radiation Laboratory at MIT and Ernest O. Lawrence's laboratory at Berkeley and the Metallurgical Laboratory at the University of Chicago allowed for a large number of expert scientists to collaborate towards defined goals as never before, and with government resources of unprecedented scale at their disposal.
In the course of the war, the Allied nuclear effort, the Manhattan Project, created several secret sites for the purpose of bomb research and material development, including a laboratory in the mountains of New Mexico directed by Robert Oppenheimer (Los Alamos), and sites at Hanford, Washington and Oak Ridge, Tennessee. Hanford and Oak Ridge were administered by private companies, and Los Alamos was administered by a public university (the University of California). Additional success was had at the University of Chicago in reactor research, leading to the creation of Argonne National Laboratory outside Chicago, and at other academic institutions spread across the country.
After the war and its scientific successes, the newly created Atomic Energy Commission took over the future of the wartime laboratories, extending their lives indefinitely (they were originally thought of as temporary creations). Funding and infrastructure were secured to sponsor other "national laboratories" for both classified and basic research, especially in physics, with each national laboratory centered around one or many expensive machines (such as particle accelerators or nuclear reactors).
Most national laboratories maintained staffs of local researchers as well as allowing for visiting researchers to use their equipment, though priority to local or visiting researchers often varied from lab to lab. With their centralization of resources (both monetary and intellectual), the national labs serve as an exemplar for Big Science.
The national laboratory system, administered first by the Atomic Energy Commission, then the Energy Research and Development Administration, and currently the Department of Energy, is one of the largest (if not the largest) scientific research systems in the world. The DOE provides about a third of the total national funding for physics, chemistry, materials science, and other areas of the physical sciences.[49]
In popular culture
- In the Netflix web series Stranger Things, a fictional laboratory called Hawkins National Laboratory run by the DOE is located in the fictional town of Hawkins, Indiana.[50]
- In the AMC show Breaking Bad, Walter White works for Sandia National Laboratories prior to Season One.
- In the 2003 film The Hulk, a model of the Gamma Sphere, built at Lawrence Berkeley National Laboratory as a detector of gamma rays, is used as the powerful source of gamma rays.[51] The Hulk ends up hurling it through the iconic dome of the Advanced Light Source, which was designed by Arthur Brown Jr. around 1940 for the 184-inch cyclotron.[52]
References
- "National Laboratories". U.S. Department of Energy. Retrieved February 11, 2023.
- The National Energy Technology Laboratory is the only laboratory which is government owned - government operated (GOGO), or managed directly by the DOE. The others are government owned - contractor operated (GOCO).
- "Federal Funds for Research and Development: Fiscal Years 2020–21". National Center for Science and Engineering Statistics (National Science Foundation). Retrieved February 11, 2023.
- "The State of the DOE National Laboratories (2020 edition)" (PDF). U.S. Department of Energy. Retrieved February 11, 2023.
- Previous management and operations (M&O) contractors for ORNL were Monsanto (ca. 1945–1947), Union Carbide (1947–1984), Martin Marietta (1984–1995), and Lockheed Martin (1995–2000)"Swords to Plowshares: A Short History of Oak Ridge National Laboratory (1943-1993)". 2012-10-17. Archived from the original on 2012-10-17. Retrieved 2019-05-03. "ORNL Review: Sixty Years of Great Science" (PDF). p. 21.
- Associated Universities, Incorporated managed Brookhaven from 1947 to 1998
- University Research Associates managed Fermilab from 1967 to 2007.
- Previous M&O contractors for LANL were the University of California (1943-2007) and Los Alamos National Laboratory, LLC (2007-2018). See more details at "Los Alamos National Laboratory". University of California Office of the President. Retrieved February 14, 2023.
- The Z Division of LANL was established as a separate laboratory, Sandia, in 1948. Previous M&O contractors for SNL were the University of California (1948-1949), AT&T Corporation (1949-1993), and Lockheed Martin (1993-2017). See more details at "A Bold Heritage". Sandia National Laboratory. Retrieved February 14, 2023.
- The University of California managed LLNL from 1952 to 2007. See more details at "Livermore National Laboratory". University of California Office of the President. Retrieved February 14, 2023.
- The Midwestern Research Institute and MRI Global managed NREL from 1977 to 2008. See more details at "History National Renewable Energy Laboratory (NREL)" (PDF). National Renewable Energy Laboratory. Retrieved February 14, 2023.
- The Savannah River Nuclear Solutions, LLC managed SRNL from 2008 to 2021.
- "About Savannah River National Laboratory (SRNL)" (PDF).
- Bechtel managed INL before 2005.
- "User Facilities". US Department of Energy Office of Science. Retrieved February 14, 2023. "User Facilities at a Glance". US Department of Energy Office of Science. Retrieved February 14, 2023.
- The Advanced Scientific Computing Research program provides support for four user facilities, three high-performance computing centers and a high-volume research network. "ASCR User Facilities". US Department of Energy Office of Science. Retrieved February 14, 2023.
- The DOE operates 5 of the top 20 HPC systems in the Top 500 ratings of supercomputers, including the top ranked system. "Top500 November 2022 list". Retrieved February 14, 2023.
- "Argonne Leadership Computing Facility". Argonne National Laboratory.
- "National Energy Research Scientific Computing Center". NERSC.gov. Retrieved February 14, 2023.
- "Oak Ridge Leadership Computing Facility". Oak Ridge National Laboratory. Retrieved February 14, 2023.
- "About ESnet". Energy Sciences Network. Retrieved February 14, 2023. "ESnet launches next generation network to enhance collaborative science". Energy Sciences Network. Retrieved February 14, 2023.
- The Biological and Environmental Research program provides support for three user facilities. "BER User Facilities". US Department of Energy Office of Science. Retrieved February 20, 2023.
- "ARM Research Facility". Retrieved February 20, 2023.
- "Environmental Molecular Sciences Laboratory". Pacific Northwest National Laboratory. Retrieved February 20, 2023.
- "DOE Joint Genome Institute". Berkeley Lab. Retrieved February 20, 2023.
- The Basic Energy Science program provides support for twelve user facilities, principally for the study of chemistry and materials: five x-ray light sources, five nanoscale research centers, and two neutron scattering centers. "BES User Facilities". US Department of Energy Office of Science. Retrieved February 14, 2023.
- "X-Ray Light Sources". US Department of Energy Office of Science. Retrieved February 19, 2023.
- "The Advanced Light Source". Berkeley Lab. Retrieved February 15, 2023. "ALS-U overview". Berkeley Lab.
- "The Advanced Photon Source". Argonne National Laboratory. "About the APS Upgrade". Argonne National Laboratory.
- "National Synchrotron Light Source II". Brookhaven National Laboratory.
- "Linear Coherent Light Source". SLAC National Accelerator Laboratory. "LCLS-II, A World-Class Discovery Machine". SLAC National Accelerator Laboratory.
- "About the Stanford Synchrotron Radiation Lightsource". SLAC National Accelerator Laboratory.
- "Nanoscale Science Research Centers". US Department of Energy Office of Science. Retrieved February 19, 2023.
- "The Center for Functional Nanomaterials". Brookhaven National Laboratory. Retrieved February 19, 2023.
- "The Center for Integrated Nanotechnologies". Los Alamos National Laboratory. Retrieved February 19, 2023. "The Center for Integrated Nanotechnologies". Sandia National Laboratory. Retrieved February 19, 2023.
- "The Center for Nanoscale Materials". Argonne National Laboratory. Retrieved February 19, 2023.
- "The Center for Nanophase Materials Sciences". Oak Ridge National Laboratory. Retrieved February 19, 2023.
- "The Molecular Foundry". Berkeley Lab. Retrieved February 19, 2023.
- "Neutron Scattering Facilities". US Department of Energy Office of Science. Retrieved February 19, 2023.
- "The High Flux Isotope Reactor". Oak Ridge National Laboratory. Retrieved February 19, 2023.
- "The Spallation Neutron Source". Oak Ridge National Laboratory. Retrieved February 19, 2023.
- The Fusion Energy Sciences program provides support for two user facilities. "FES User Facilities". US Department of Energy Office of Science. Retrieved February 20, 2023.
- "DIII-D national fusion facility". General Atomics. Retrieved February 20, 2023.
- "National Spherical Torus Experiment-Upgrade". Princeton Plasma Physics Laboratory. Retrieved February 20, 2023.
- The High Energy Physics program provides support for three user facilities, one multi-stage accelerator complex supporting a broad physics program, and two accelerator test facilities. "HEP User Facilities". US Department of Energy Office of Science. Retrieved February 24, 2023.
- "Fermilab". Retrieved February 24, 2023.
- "Accelerator Test Facility". Brookhaven National Laboratory. Retrieved February 24, 2023.
- "FACET-II Facility for Advanced Accelerator Experimental Tests". SLAC National Laboratory. Retrieved February 24, 2023.
- "Federal obligations for research in physical sciences, by agency and detailed field: FY 2019" (PDF). National Science Foundation - National Center for Science and Engineering Statistics. Retrieved 27 December 2021. 3,197,261.8 kUSD out of a total of 9,816,132.9 kUSD is provided by the DOE. The fraction was higher (~40%) in FY 2016 ().
- "What Stranger Things didn't get quite so right about the Energy Department". U.S. Department of Energy. Retrieved February 19, 2023.
- Brumfiel, Geoff (June 17, 2003). "Real Experiment Stars in Hulk Movie". Science Magazine. Retrieved February 19, 2023.
- "The Advanced Light Source". Lightsources.org. Retrieved February 19, 2023.
Further reading
- Westwick, Peter J. (2003). The National Labs: Science in an American System, 1947–1974. Cambridge: Harvard University Press. ISBN 978-0-674-00948-6.