Nuclear Emergency Support Team

The Nuclear Emergency Support Team (NEST), formerly known as the Nuclear Emergency Search Team, is a team of scientists, technicians, and engineers operating under the United States Department of Energy's National Nuclear Security Administration (DOE/NNSA). NEST is the umbrella designation that encompasses all DOE/NNSA radiological and nuclear emergency response functions; some of which date back more than 60 years. NEST's responsibilities include both national security missions, particularly; countering weapons of mass destruction (WMD) and public health and safety, including responses to nuclear reactor accidents. NEST's task is to be "prepared to respond immediately to any type of radiological accident or incident anywhere in the world".[1][2]

National Nuclear Security Administration Logo

History

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Logo of the Nuclear Emergency Support Team

Concerns over scenarios involving nuclear accidents or incidents on American soil reach back decades. As early as the 1960s, officials were concerned that a nuclear weapon might be smuggled into the country or that an airplane carrying a nuclear weapon might crash and contaminate surrounding areas.[3]

In late 1974, the FBI received a communication from an extortionist who wanted $200,000 (equivalent to $1,236,000 in 2023) and claimed that a nuclear weapon had been placed somewhere in Boston. President Gerald Ford was warned, and a team of experts from the United States Atomic Energy Commission rushed in, but their radiation detection gear arrived at a different airport. Federal officials then resorted to renting a fleet of vans to carry concealed radiation detectors around the city, but the officials forgot to bring the tools they needed to install the equipment. The incident was later found to be a hoax.

However, the government's response highlighted the need for an agency capable of effectively responding to such threats in the future. Later that year, President Ford created the Nuclear Emergency Support Team (NEST), which under the Atomic Energy Act is tasked with investigating the 'illegal use of nuclear materials within the United States, including terrorist threats involving the use of special nuclear materials'.[2][4]

One of NEST's first responses was in Spokane, Washington on November 23, 1976. An unknown group called Omega mailed an extortion threat claiming they would explode containers of radioactive water all over the city unless they were paid $500,000 (equivalent to $2,677,000 in 2023). Presumably, the containers had been stolen from the Hanford Site, less than 150 miles (240 km) to the southwest. NEST immediately flew in a support aircraft from Las Vegas and began searching for non-natural radiation but found nothing. Despite the elaborate instructions initially given by Omega, no further contact was received, and no one made any attempt to claim the (fake) money, which was kept under surveillance. Within days, the incident was deemed a hoax, though the case was never solved. To avoid panic, the public was not notified until a few years later.[5][6]

One of the more high-profile responses in NEST’s early history took place in August of 1980 when several men planted a sophisticated bomb containing 1,000 pounds of dynamite at Harvey's Resort Hotel in Stateline, Nevada. In addition to explosive ordnance disposal (EOD) personnel from the FBI, NEST experts were brought in to assist in diagnosing and defeating the device. However, attempts to disarm the bomb were unsuccessful, the bomb exploded and caused extensive damage to the hotel and nearby buildings. The limitations of the tactics, tools, and procedures used in the response to the casino bomb—coupled with the fear that a similarly complex device might contain nuclear or radiological material—led to sweeping improvements in NEST’s device defeat capabilities.

A more recent example of a NEST deployment was its response to the 2011 nuclear disaster at the Fukushima Daiichi Nuclear Power Plant in Okuma, Fukushima Prefecture, Japan. The event, primarily caused by the 2011 Tohoku earthquake and tsunami, resulted in the most severe nuclear accident since the Chernobyl disaster in 1986. NEST personnel with expertise in atmospheric modeling, aerial measuring, and health physics were deployed to Japan shortly after the disaster occurred. The scientific advice that NEST provided during this emergency was crucial to informing the responses of both the U.S. and Japanese governments to protect public health.[7]

Today

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According to the Bulletin of the Atomic Scientists, NEST has the ability to deploy as many as 600 people to the scene of a radiological incident, though deployments do not usually exceed 45 people.[8] NEST has a variety of equipment (weighing up to 150 tons) and has the support of a small fleet of aircraft which includes four helicopters and three airplanes, all outfitted with detection equipment.[9]

When an airborne response to an incident is underway, the Federal Aviation Administration grants NEST flights a higher control priority within the United States National Airspace System, designated with the callsign "FLYNET".[10]

Capabilities

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The Nuclear Emergency Support Team (NEST) is NNSA’s multi-mission nuclear emergency response capability that leverages the Department of Energy’s world-class scientists and technical experts to contend with the Nation’s most pressing radiological and nuclear challenges. NEST is the umbrella designation that encompasses all DOE/NNSA radiological and nuclear emergency response functions, some of which date back more than 60 years.

These include all field-deployed and remote technical support to the Nation’s countering weapons of mass destruction (WMD) operations, including Preventive Nuclear and Radiological Detection (PNRD) and threat-based nuclear search; public health and safety missions, including radiological consequence management; and responses to U.S. nuclear weapon accidents and incidents. Additionally, NEST maintains operational capabilities that enable nuclear forensic analysis of nuclear material used in an improvised nuclear device or interdicted outside of regulatory control. NEST’s motto – “Scientifically Informed, Operationally Focused” – reflects the technical underpinning of its diverse operational missions.[11]

NEST is composed of numerous response assets designed to counter WMD threats, respond to accidents involving U.S. nuclear stockpile weapons, and threats to public health and safety. The assets include:[1]

  • Accident Response Group (ARG)[12]
  • Aerial Measuring System (AMS)[13]
  • Detonation Assessment Program (DAP)
  • Disposition and Forensic Evidence Analysis Team (DFEAT)
  • DOE Forensics Operations (DFO)
  • Federal Radiation Monitoring and Assessment Center (FRMAC)[14]
  • Joint Technical Operations Team (JTOT)[15]
  • National Atmospheric Release Advisory Center (NARAC)[16]
  • National Search Team (NST)
  • Nuclear Forensics-Material Analysis Program
  • Radiation Emergency Assistance Center / Training Site (REAC/TS)[17]
  • Radiological Assistance Program (RAP)[18]

Since 1975, NEST has been warned of 125 nuclear terror threats and has responded to 30. NEST has numerous ways to detect radiation. At first, there were still some problems with this simple distinction, as man-made radiation also includes such things as medical radiation. In 2004, a man under treatment for Graves' disease with radioactive iodine set off alarms in the New York City subway. After being strip-searched and interrogated he was sent on his way.[19]

Since its initial creation, the detection equipment has been improved and now data can be processed accurately enough to aim in on the activity of any single nuclear element desired.

See also

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References

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  1. ^ a b "Nuclear Emergency Support Team (NEST)". Energy.gov. Retrieved 2024-08-22.
  2. ^ a b "Nuclear Emergency Support Team (NEST)" (PDF). U.S. Department of Energy. Archived from the original (PDF) on 2006-09-23. Retrieved 2012-10-21.
  3. ^ "Defusing Iran's nuclear plans". Chicago Tribune. 2004-11-17. Retrieved 2012-10-21 – via AccessMyLibrary.
  4. ^ "The Nuclear Emergency Support Team (NEST)". APS Physics.
  5. ^ Peck, Chris (1981-02-08). "The day they said they'd nuke Spokane – Part 1" (scan). The Spokesman-Review. p. 17. Retrieved 2012-10-21.
  6. ^ Peck, Chris (1981-02-08). "The day they said they'd nuke Spokane – Part 2" (scan). The Spokesman-Review. p. 24. Retrieved 2012-10-21.
  7. ^ "The Situation in Japan". Department of Energy. January 25, 2013 [May 13, 2011].
  8. ^ "Bulletin of the Atomic Scientists". Accessmylibrary.com. 2004-11-17. Retrieved 2012-10-21.
  9. ^ U.S. Department of Energy. "Nuclear Emergency Search Team".
  10. ^ FAA (2019-08-15). "Order JO 7110.65Y Air Traffix Control Para. 2-1-4" (PDF). Retrieved 2020-12-20.
  11. ^ "Nuclear Emergency Support Team (NEST)". Energy.gov. Retrieved 2023-08-16.
  12. ^ "Responders provide technical expertise in case of nuclear weapons accidents". LabNews. Retrieved 2023-08-16.
  13. ^ "Aerial Measuring System". Retrieved 2021-08-31.
  14. ^ "Federal Radiological Monitoring and Assessment Center (FRMAC)". Nevada National Security Site. Retrieved 2024-08-22.
  15. ^ "NNSA's Joint Technical Operations Team commemorates 20 years of mission readiness". 2017-02-24. Retrieved 2021-08-31.
  16. ^ "National Atmospheric Release Advisory Center". Retrieved 2021-08-31.
  17. ^ "Radiation Emergency Assistance Center/Training Site". Retrieved 2021-08-31.
  18. ^ "Radiological Assistance Program (RAP) Regions – Radiation Emergency Medical Management". remm.hhs.gov. Retrieved 2023-08-16.
  19. ^ "Radio-too-Active: Medical radiation is causing unexpected problems", The Economist. 2004-12-02. Retrieved 2012-10-21

Further reading

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