Agency Name: | National Nuclear Security Administration |
Formed: | 2000[1] |
Headquarters: | James V. Forrestal Building, Washington, D.C. |
Employees: | 2,600+ federal (2024), 65,000 contract (2024) |
Budget: | $22.2 billion (FY24) |
Chief1 Name: | Jill Hruby |
Chief1 Position: | Under Secretary of Energy for Nuclear Security, NNSA Administrator |
Parent Agency: | Department of Energy |
The National Nuclear Security Administration (NNSA) is a United States federal agency responsible for safeguarding national security through the military application of nuclear science. NNSA maintains and enhances the safety, security, and effectiveness of the U.S. nuclear weapons stockpile; works to reduce the global danger from weapons of mass destruction; provides the United States Navy with safe and effective nuclear propulsion; and responds to nuclear and radiological emergencies in the United States and abroad.
Established by the United States Congress in 2000, NNSA is a semiautonomous agency within the United States Department of Energy. The current Administrator is Jill Hruby.[2]
The National Nuclear Security Administration was created by Congressional action in 1999,[3] in the wake of the Wen Ho Lee spy scandal[4] [5] and other allegations that lax administration by the Department of Energy had resulted in the loss of U.S. nuclear secrets to China.[6] Originally proposed to be an independent agency, it was instead chartered as a semiautonomous agency within the Department of Energy to be headed by an administrator reporting to the Secretary of Energy.[7] The first Under Secretary for Nuclear Security and NNSA administrator appointed was Air Force General (and CIA Deputy Director) John A. Gordon.[8]
In 2006, the it was confirmed that NNSA employee information had been hacked. A report criticized the response. NNSA's Administrator took responsibility.[9]
NNSA has the following missions with regard to national security:[10]
One of NNSA's primary missions is to maintain the safety, security and effectiveness of the United States' nuclear weapons stockpile.[11] After the Cold War, the U.S. voluntarily ended underground nuclear testing. NNSA maintains the existing nuclear deterrent through the use of science experiments, engineering audits and high-tech simulations at its three national laboratories: Los Alamos National Laboratory, Lawrence Livermore National Laboratory, and Sandia National Laboratories. It also creates new weapons programs as required by the United States Department of Defense.[12]
NNSA assets used to maintain and ensure the effectiveness of the American nuclear weapons stockpile include the Dual-Axis Radiographic Hydrodynamic Test Facility and the Z Machine. NNSA also uses powerful supercomputers to run simulations and validate experimental data; these computers often appear on the Top500 list.
Another important asset used to test the stockpile is the National Ignition Facility (NIF) at LLNL, a laser-based inertial confinement fusion research device. NIF achieved the first scientific breakeven controlled fusion experiment on December 5, 2022, with an energy gain factor of 1.5.[13]
The Office of Secure Transportation provides safe and secure transportation of nuclear weapons and components and special nuclear materials, and conducts other missions supporting national security. OST shipments are moved in specially designed equipment and escorted by armed and specially trained federal agents.[14]
NNSA's Office of Defense Nuclear Nonproliferation works with international partners, federal agencies, U.S. national laboratories, and the private sector to discover, protect, and or dispose of radiological and nuclear materials.[15]
The office strives to:
The agency created the Global Threat Reduction Initiative in 2004 to expand efforts similar to the Cooperative Threat Reduction program beyond the former Soviet Union.[16] [17]
In 2016, GTRI was renamed the Office of Materials Management and Minimization, and continues the efforts of supporting reactor conversions, fuel returns, and LEU fuel development.
The work of the Office of Materials Management and Minimization is divided into three subprograms: Conversion, Nuclear Materials Removal, and Material Disposition.
Through this office and its predecessors, NNSA has successfully led the recovery efforts of nuclear materials from dozens of countries. Since 1996, the Department of Energy/NNSA has disposed of enough material to produce more than 325 nuclear weapons. [18]
For example, in 2017, it removed all the highly enriched uranium from Ghana and repatriated it to China. The Ghanaian reactor now uses low-enriched uranium.[19]
NNSA's Office of Counterterrorism and Counterproliferation focuses on:[20] [21]
The office oversees the capabilities of the Nuclear Emergency Support Team.
NNSA deploys response teams dozens of times each year, usually to check for radioactive materials. Missions assuage safety concerns, support other agencies, and bolster law enforcement capabilities at large public events such as presidential inaugurations and the Super Bowl.
NNSA provides expertise, tools and technically informed policy recommendations to advance U.S. nuclear counterterrorism and counterproliferation objectives. It is responsible for understanding nuclear threat devices and foreign activities that cause proliferation concerns. To do this, members of the counterproliferation office confer with international counterparts on nuclear security and counterterrorism; conduct scientific research to characterize, detect and defeat nuclear threat devices; develop and conduct WMD counterterrorism exercises; and promote nuclear information security policy and practices.
NNSA's Nuclear Propulsion Program – working with Naval Nuclear Laboratories – is responsible for providing efficient nuclear propulsion plants to the United States Navy. It is also known as Naval Reactors. It conducts the design, development and operational support required to power all the U.S. Navy's aircraft carriers and nuclear submarines. The program consists of both civilian and military personnel who maintain, design, build, and manage the reactors.
The following are the elements of the program:[22]
NNSA has several offices that support its primary missions. Among them are:
NNSA's Office of Emergency Operations has the obligation of responding to emergencies on behalf of the entire Department of Energy.[23] Its high level of alertness allows the United States to respond to incidents in a rapid manner.
NNSA's Office of Defense Nuclear Security is responsible for the overall security of facilities housing nuclear weapons as well as the components and materials required to develop them -- this includes oversight of Federal Protective Forces at NNSA's labs, plants, and sites.[24] The office also safeguards personnel and produces threat assessments.