Part of a series on |
Terrorism |
---|
Nuclear weapons |
---|
Background |
Nuclear-armed states |
|
Nuclear terrorism refers to any person or persons detonating a nuclear weapon as an act of terrorism (i.e., illegal use of violence for a political or religious cause). [1] Nuclear terrorism outlines a broad category of possible terror incidents, ranging in feasibility and scope. Possible methods include the sabotage of a nuclear facility, the intentional irradiation of citizens, and/or the detonation of a radiological device, colloquially termed a dirty bomb, but consensus is lacking. According to the 2005 United Nations International Convention for the Suppression of Acts of Nuclear Terrorism. [2] nuclear terrorism is an offense committed if a person unlawfully and intentionally "uses in any way radioactive material … with the intent to cause death or serious bodily injury; or with the intent to cause substantial damage to property or to the environment; or with the intent to compel a natural or legal person, an international organization or a State to do or refrain from doing an act."
The possibility of terrorist organizations using nuclear weapons has been identified by nuclear powers and considered since the conception of nuclear weapons and the rise of global terrorism. Nuclear powers collaborate to prevent terror organizations from acquiring nuclear weapons and fuel.
It is considered plausible that terrorists could acquire a nuclear weapon. [3] As such, countries such as China and the UK have taken steps to restrict access to nuclear weapons and materials. Restrictions being implemented are only a small part of prevention systems that are being researched in countries. Preventing nuclear terrorism is a topic that interests counties who are developing or expanding their nuclear warhead knowledge. Whether it be through policy, summits, or warhead detection and disablement, the idea of threatening another nation is a worry that comes with the notion of war. Nonetheless, despite thefts and trafficking of small amounts of fissile material, there is no credible evidence that any terrorist group has ever obtained or produced nuclear materials of sufficient quantity or purity to produce a viable nuclear weapon. [4] [5]
Nuclear terrorism could include:
Nuclear terrorism, according to a 2011 report published by the Belfer Center for Science and International Affairs at Harvard University, can be executed and distinguished via four pathways: [7]
Former U.S. President Barack Obama called nuclear terrorism "the single most important national security threat that we face". In his first speech to the U.N. Security Council, President Obama stated that "Just one nuclear weapon exploded in a city—be it New York or Moscow, Tokyo or Beijing, London or Paris—could kill hundreds of thousands of people", and warned such an attack could "destabilize our security, our economies, and our very way of life". [8]
As early as December 1945, politicians worried about the possibility of smuggling nuclear weapons into the United States, though this was still in the context of a battle between the superpowers of the Cold War. Congressmen quizzed the "father of the atomic bomb," J. Robert Oppenheimer, about the possibility of detecting a smuggled atomic bomb:
Sen. Millikin: We... have mine-detecting devices, which are rather effective... I was wondering if anything of that kind might be available to use as a defense against that particular type of use of atomic bombs.
Dr. Oppenheimer: If you hired me to walk through the cellars of Washington to see whether there were atomic bombs, I think my most important tool would be a screwdriver to open the crates and look. I think that just walking by, swinging a little gadget would not give me the information. [9]
This sparked further work on the question of smuggled atomic devices during the 1950s.
Discussions of non-state nuclear terrorism among experts go back at least to the 1970s. In 1975 The Economist warned that "You can make a bomb with a few pounds of plutonium. By the mid-1980s the power stations may easily be turning out 200,000 lb of the stuff each year. And each year, unless present methods are drastically changed, many thousands of pounds of it will be transferred from one plant to another as it proceeds through the fuel cycle. The dangers of robbery in transit are evident.... Vigorous co-operation between governments and the International Atomic Energy Agency could, even at this late stage, make the looming perils loom a good deal smaller." [10] The New York Times commented in 1981 that The Nuclear Emergency Search Team's "origins go back to the aftershocks of the Munich Olympic massacre in mid-1972. Until that time, no one in the United States Government had thought seriously about the menace of organized, international terrorism, much less nuclear terrorism. There was a perception in Washington that the value of what is called 'special nuclear material' - plutonium or highly enriched uranium (HEU) - was so enormous that the strict financial accountability of the private contractors who dealt with it would be enough to protect it from falling into the wrong hands. But it has since been revealed that the physical safeguarding of bomb-grade material against theft was almost scandalously neglected." [11]
This discussion took on a larger public character in the 1980s after NBC aired Special Bulletin , a television dramatization of a nuclear terrorist attack on the United States. [12] In 1986 a private panel of experts known as the International Task Force on the Prevention of Terrorism released a report urging all nuclear-armed states to beware the dangers of terrorism and work on equipping their nuclear arsenals with permissive action links. "The probability of nuclear terrorism," the experts warned, "is increasing and the consequences for urban and industrial societies could be catastrophic." [13]
Nuclear weapons may be acquired by non-state organisations such as terrorist groups via purchase or theft, either in whole or in part, from state entities. State involvement may be either intentional—as an act of policy—or inadvertent—through failure to exercise sovereignty within their territory over nuclear weapons or materials with which to build them. Robert Litwak, vice-president of the Woodrow Wilson International Center for Scholars, deemed it unlikely that terrorist groups would be able to effectively create nuclear weapons without enriched uranium. Nevertheless, he speculated that ISIS's control over much of Syria and Iraq, and therefore much of their infrastructure, could lead to them developing "state-like WMD (weapons of mass destruction) capabilities". Litwak therefore stated that the United States's primary strategy had been to curtail ISIS's territorial gains to deny them the capabilities of a state. [14]
Unlike state-level use of nuclear weapons, retaliation is not likely to deter terrorist groups from the use of nuclear weapons, so the doctrine of mutually assured destruction does not apply. [14]
Denial of access to nuclear materials is thus the approach taken by interested nations. Techniques include import and export restrictions, physical security at nuclear facilities to prevent theft, and consolidation or elimination of stockpiles to reduce the security perimeter. [14] The United States subsidizes security for nuclear materials and dismantlement of nuclear weapons through the Cooperative Threat Reduction and Global Threat Reduction Initiative programs.
Different countries have their own proposals for how to secure nuclear materials. In China, during 2020 there was a proposal for security measures to be developed surrounding radioactive material transportation. [15] Similarly, the UK had an approach in 2021. A UK review was published surrounding the use of radiation detection systems with shipping container cargo, and how future systems should be designed as to implement improved detection technologies without negatively impacting the shipping industry. [16]
Efforts to secure nuclear materials are also made by threatening to punish any country that uses, sells, or gives away nuclear weapons or materials. [14] One example of this is when U.S. President George W. Bush threatened North Korea with consequences if they were to engage in such behavior. [17]
The Global Initiative to Combat Nuclear Terrorism (GICNT) is an international partnership of 88 nations and 5 official observers working to improve capacity on a national and international level for prevention, detection, and response to a nuclear terrorist event. Partners join the GICNT by endorsing the Statement of Principles, a set of broad nuclear security objectives. GICNT partner nations organize and host workshops, conferences, and exercises to share best practices for implementing the Statement of Principles. The GICNT also holds Plenary meetings to discuss improvements and changes to the partnership.
The World Institute for Nuclear Security is an organization which seeks to prevent nuclear terrorism and improve world nuclear security. It works alongside the International Atomic Energy Agency. WINS was formed in 2008, less than a year after a break-in at the Pelindaba nuclear facility in South Africa, which contained enough enriched uranium to make several nuclear bombs.[ citation needed ]
Nuclear weapons materials on the black market are a global concern, [18] [19] and there is concern about the possible detonation of a small, crude nuclear weapon by a militant group in a major city, with significant loss of life and property. [20] [21]
It is feared that a terrorist group could detonate a dirty bomb, a type of radiological weapon. A dirty bomb is made of any radioactive source and a conventional explosive. There would be no nuclear blast and likely no fatalities, but the radioactive material is dispersed and can cause extensive fallout depending on the material used. [21] There are other radiological weapons called radiological exposure devices where an explosive is not necessary. A radiological weapon may be very appealing to terrorist groups as it is highly successful in instilling fear and panic among a population (particularly because of the threat of radiation poisoning) and would contaminate the immediate area for some period of time, disrupting attempts to repair the damage and subsequently inflicting significant economic losses.
From the moment of its foundation in 1988, al-Qaeda had a military subcommittee on nuclear weapons and tried to purchase fissile material from former Soviet Union and its former satellite states. [22] [23] After al-Qaeda merged with Ayman al-Zawahiri's Egyptian Islamic Jihad the new Shura Council held internal discussions on the matter of nuclear weapons, and in 1998 Osama bin Laden issued a fatwa declaring that it was his religious duty to acquire and use nuclear weapons. [24] Al-Qaeda defector Jamal al-Fadl told the FBI that bin Laden paid a Sudanese Armed Forces general $1.5 million for a cylinder of cinnabar which he believed contained South African uranium in 1993. [22] [25] In April 2001, a Bulgarian businessman claimed bin Laden offered to buy fissile material from him in a meeting near the China-Pakistan border. [25]
In Osama bin Laden's only interview with a journalist after the September 11 attacks, he and al-Zawahiri claimed that al-Qaeda possessed readily usable chemical and nuclear weapons. However it is generally believed, including by the interviewer Hamid Mir, that they were bluffing and that it would have been extremely unlikely for al-Qaeda to have procured weapons of mass destruction at that time. [26]
According to Bunn & Wier, bin Laden requested a ruling (a fatwa ), and was subsequently informed via a cleric of Saudi Arabia during 2003, of it being in accordance with Islamic law for him to use a nuclear device against civilians if it were the only course of action available to him in a situation of defending Muslims against the actions of the U.S. military. [27]
According to leaked diplomatic documents, Al-Qaeda can produce radiological weapons, after sourcing nuclear material and recruiting rogue scientists to build "dirty bombs". [28] Al-Qaeda, along with some North Caucasus terrorist groups that seek to establish an Islamic Caliphate in Russia, have consistently stated they seek nuclear weapons and have tried to acquire them. [7] Al-Qaeda has sought nuclear weapons for almost two decades by attempting to purchase stolen nuclear material and weapons and has sought nuclear expertise on numerous occasions. Osama bin Laden stated that the acquisition of nuclear weapons or other weapons of mass destruction is a “religious duty.” [29] While pressure from a wide range of counter-terrorist activity has hampered Al-Qaeda's ability to manage such a complex project, there is no sign that it has jettisoned its goals of acquiring fissile material. Statements made as recently as 2008 indicate that Al-Qaeda's nuclear ambitions are still very strong. [7] [ needs update ] The Commission on the Prevention of Weapons of Mass Destruction Proliferation and Terrorism issued a report that al-Qaeda would attempt to use.
The Islamic State of Iraq and Syria (ISIS) has demonstrated ambition to use weapons of mass destruction. [30] Although the chances of them obtaining a nuclear bomb are small, the group has been trying/suspected of trying to obtain a nuclear dirty bomb. [31] In July 2014, after the fall of Mosul, ISIS militants captured nuclear materials from Mosul University. In a letter to UN Secretary-General Ban Ki-moon, Iraq's UN Ambassador Mohamed Ali Alhakim said that the materials had been kept at the university and "can be used in manufacturing weapons of mass destruction". International Atomic Energy Agency spokeswoman Gill Tudor said that the seized materials were "low grade and would not present a significant safety, security or nuclear proliferation risk". [32] [33]
In October 2015, it was reported that Moldovan authorities working with the FBI had stopped four attempts from 2010 to 2015 by gangs with suspected connections to Russia's intelligence services that sought to sell radioactive material to ISIS and other Middle Eastern extremists. The last reported case came in February 2015 when a smuggler with a large amount of radioactive caesium specifically sought a buyer from ISIS. Due to poor relations between Russia and the West, it is difficult to ascertain if smugglers succeeded in selling radioactive material originating from Russia to Islamist terrorists and elsewhere. [30] [34] [35]
In March 2016, it was reported that a senior Belgian nuclear official was being monitored by ISIS suspects linked to the November 2015 Paris attacks leading the Belgian Federal Agency for Nuclear Control to suspect that ISIS was planning on abducting the official to obtain nuclear materials for a dirty bomb. [36]
In April 2016, European Union and NATO security chiefs warned that ISIS was plotting to carry out nuclear attacks on the United Kingdom and Europe. [37]
North Caucasus terrorists have attempted to seize a nuclear-powered and nuclear-armed ballistic missile submarine. They have also engaged in reconnaissance activities on nuclear storage facilities and have repeatedly threatened to sabotage nuclear facilities. Similar to Al-Qaeda, these groups’ activities have been hampered by counter-terrorism activity; nevertheless they remain committed to launching such a devastating attack within Russia. [7]
The Japanese terror cult Aum Shinrikyo, which used sarin gas in the 1995 Tokyo Metro attack, has also tried to acquire nuclear weapons. However, according to nuclear terrorism researchers at Harvard University’s Belfer Center for Science and International Affairs, there is no evidence as of 2011 that they continue to do so. [7]
Information reported to the International Atomic Energy Agency (IAEA) shows "a persistent problem with the illicit trafficking in nuclear and other radioactive materials, thefts, losses and other unauthorized activities". [38] The IAEA Illicit Nuclear Trafficking Database notes 1,266 incidents reported by 99 countries over the last 12 years, including 18 incidents involving HEU or plutonium trafficking: [39]
In 2009, a paper published in West Point Military Academy's journal alleged that Pakistan's nuclear sites had been attacked by al-Qaeda and the Taliban at least three times. [40] However, the Pakistan Armed Forces rejected the allegations. Talat Masood, a political analyst, said that the nuclear link was "absolute nonsense". [41] All three attacks were suicide and appeared to aim at causing maximum damage and not seizing weapons. [42] In January 2010, it was revealed that the US army was training a specialised unit "to seal off and snatch back" Pakistani nuclear weapons in the event that militants would obtain a nuclear device or materials that could make one. Pakistan supposedly possesses about 160+ nuclear warheads. US officials refused to speak on the record about the American safety plans. [51]
A study by the Belfer Center for Science and International Affairs at Harvard University titled "Securing the Bomb 2010," found that Pakistan's stockpile "faces a greater threat from Islamic terror groups seeking nuclear weapons than any other nuclear stockpile on earth." [52] In 2016, Defense Intelligence Agency Director Vincent R. Stewart said that Pakistan "continues to take steps to improve its nuclear security, and is aware of the threat presented by extremists to its program". [53]
According to Rolf Mowatt-Larssen, a former investigator with the CIA and the U.S. Department of Energy, there is "a greater possibility of a nuclear meltdown in Pakistan than anywhere else in the world. The region has more violent extremists than any other, the country is unstable, and its arsenal of nuclear weapons is expanding." [54] In 2015, White House press secretary Josh Earnest said that the US has confidence that Pakistan is "well aware of the range of potential threats to its nuclear arsenal". He added that the US is "confident that Pakistan has a professional and dedicated security force that understands the importance and the high priority that the world places on nuclear security". [53]
Nuclear weapons expert David Albright and author of "Peddling Peril" has also expressed concerns that Pakistan's stockpile may not be secure despite assurances by both Pakistan and U.S. government. He stated that Pakistan "has had many leaks from its program of classified information and sensitive nuclear equipment, and so you have to worry that it could be acquired in Pakistan". [55] In 2015, Richard G. Olson, former US Ambassador to Pakistan, expressed confidence in the capabilities of the Pakistani security forces to control and secure its nuclear weapons. He added that Islamabad has "specifically taken into account the insider threat". [53]
A 2016 study by the Congressional Research Service titled 'Pakistan's Nuclear Weapons', noted that Pakistan's "initiatives, such as strengthened export control laws, improved personnel security, and international nuclear security cooperation programs, have improved Pakistan's nuclear security". [53]
During the 2020 Armenian–Azerbaijani skirmishes Azerbaijan threatened to launch missile attacks on the Armenian Nuclear Power Plant. [56] [57] [58] [59]
The Islamic Revolutionary Guard Corps Nuclear Protection and Security Corps is responsible for securing the Iranian nuclear program from terrorists. [60]
The assassination of Alexander Litvinenko by Russian state agents in 2006 using the radioactive polonium was described as the beginning of an era of nuclear terrorism. [61] [62] [63]
During the 2022 Russian invasion of Ukraine, Russian troops engaged in the Battle of Enerhodar began shelling the Zaporizhzhia Nuclear Power Plant on March 3, 2022. Units 2 and 3 were put into an emergency safe mode, while Unit 4 remained in operation due to being the furthest from the artillery firing range. Ukrainian Foreign Minister Dmytro Kuleba had warned that potential damage from a Russian attack would be "ten times larger than Chernobyl". [64] The attack caused significant damage to the plant, including a fire breaking out near Unit 1, which was under maintenance at the time. The fire was contained in the following morning. The attack was condemned by many within the international community, including being described as nuclear terrorism by Lithuanian President Nauseda, "incredible reckless and dangerous" by US Ambassador to the UN Linda Thomas-Greenfield, and a war crime by Secretary General of NATO Jens Stoltenberg. [65]
In August 2022 Dmitry Medvedev published a comment warning that "accidents can happen at European nuclear plants too", which was widely interpreted as a concealed threat. [66]
While in office, President Barack Obama reviewed Homeland Security policy and concluded that "attacks using improvised nuclear devices ... pose a serious and increasing national security risk". [67] In their presidential contest, President George W. Bush and Senator John Kerry both agreed that the most serious danger facing the United States is the possibility that terrorists could obtain a nuclear bomb. [4] Most nuclear-weapon analysts agree that "building such a device would pose few technological challenges to reasonably competent terrorists". The main barrier is acquiring highly enriched uranium. [68]
In 2004, Graham Allison, U.S. Assistant Secretary of Defense during the Clinton administration, wrote that “on the current path, a nuclear terrorist attack on America in the decade ahead is more likely than not". [69] In 2004, Bruce Blair, president of the Center for Defense Information stated: "I wouldn't be at all surprised if nuclear weapons are used over the next 15 or 20 years, first and foremost by a terrorist group that gets its hands on a Russian nuclear weapon or a Pakistani nuclear weapon". [21] In 2006, Robert Galluccii, Dean of the Georgetown University School of Foreign Service, estimated that, “it is more likely than not that al-Qaeda or one of its affiliates will detonate a nuclear weapon in a U.S. city within the next five to ten years." [69] Despite a number of claims, [70] [71] there is no credible evidence that any terrorist group has yet succeeded in obtaining a nuclear bomb or the materials needed to make one. [4] [5]
Detonation of a nuclear weapon in a major U.S. city could kill more than 500,000 people and cause more than a trillion dollars in damage. [20] [21] Hundreds of thousands could die from fallout, the resulting fires and collapsing buildings. In this scenario, uncontrolled fires would burn for days and emergency services and hospitals would be completely overwhelmed. [4] [72] [73] The likely socio-economic consequences in the United States outside the immediate vicinity of an attack, and possibly in other countries, would also likely be far-reaching. A Rand Corporation report speculates that there may be an exodus from other urban centers by populations fearful of another nuclear attack. [74]
The Obama administration claimed to focus on reducing the risk of high-consequence, non-traditional nuclear threats. Nuclear security was thought to be strengthened by enhancing "nuclear detection architecture and ensuring that our own nuclear materials are secure," and by "establishing well-planned, well-rehearsed, plans for co-ordinated response." [67] According to senior Pentagon officials, the United States will make "thwarting nuclear-armed terrorists a central aim of American strategic nuclear planning." [75] Nuclear attribution is another strategy being pursued to counter terrorism. Led by the National Technical Nuclear Forensics Center, attribution would allow the government to determine the likely source of nuclear material used in the event of a nuclear attack. This would prevent terrorist groups, and any states willing to help them, from being able to pull off a covert attack without assurance of retaliation. [76]
In July 2010 medical personnel from the U.S. Army practiced the techniques they would use to treat people injured by an atomic blast. The exercises were carried out at a training center in Indiana, and were set up to "simulate the aftermath of a small nuclear bomb blast, set off in a U.S. city by terrorists." [77]
Stuxnet is a computer worm discovered in June 2010 that is believed to have been created by the United States and Israel to attack the nuclear facilities of Iran and North Korea. [78]
After 9/11, nuclear power plants were to be prepared for an attack by a large, well-armed terrorist group. But the Nuclear Regulatory Commission, in revising its security rules, decided not to require that plants be able to defend themselves against groups carrying sophisticated weapons. According to a study by the Government Accountability Office, the N.R.C. appeared to have based its revised rules "on what the industry considered reasonable and feasible to defend against rather than on an assessment of the terrorist threat itself". [79] [80] If terrorist groups could sufficiently damage safety systems to cause a core meltdown at a nuclear power plant, and/or sufficiently damage spent fuel pools, such an attack could lead to widespread radioactive contamination. The Federation of American Scientists have said that if nuclear power use is to expand significantly, nuclear facilities will have to be made extremely safe from attacks that could release massive quantities of radioactivity into the community. New reactor designs have features of passive safety, which may help. In the United States, the NRC carries out "Force on Force" (FOF) exercises at all Nuclear Power Plant (NPP) sites at least once every three years. [81]
The peace group Plowshares have shown how nuclear weapons facilities can be penetrated, and the groups actions represent extraordinary breaches of security at nuclear weapons plants in the United States. The National Nuclear Security Administration has acknowledged the seriousness of the 2012 Plowshares action. Non-proliferation policy experts have questioned "the use of private contractors to provide security at facilities that manufacture and store the government's most dangerous military material". [82]
In late 1974, President Gerald Ford was warned that the FBI received a communication from an extortionist wanting $200,000 ($1,200,000 today) after claiming that a nuclear weapon had been placed somewhere in Boston. A team of experts rushed in from the United States Atomic Energy Commission but their radiation detection gear arrived at a different airport. Federal officials then rented a fleet of vans to carry concealed radiation detectors around the city but 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 made clear the need for an agency capable of effectively responding to such threats in the future. Later that year, President Ford created the Nuclear Emergency Search 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". [83]
One of its first responses by the Nuclear Emergency Search/Support Team was in Spokane, Washington on November 23, 1976. An unknown group called the "Days of Omega" had mailed an extortion threat claiming it would explode radioactive containers of water all over the city unless paid $500,000 ($2,700,000 today). Presumably, the radioactive containers had been stolen from the Hanford Site, less than 150 miles to the southwest. Immediately, NEST flew in a support aircraft from Las Vegas and began searching for non-natural radiation, but found nothing. No one ever responded despite the elaborate instructions given, or 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. [84] [85]
The Cooperative Threat Reduction Program (CTR), which is also known as the Nunn–Lugar Cooperative Threat Reduction, is a 1992 law sponsored by Senators Sam Nunn and Richard Lugar. The CTR established a program that gave the U.S. Department of Defense a direct stake in securing loose fissile material inside the since-dissolved Soviet Union. According to Graham Allison, director of Harvard University's Belfer Center for Science and International Affairs, this law is a major reason why not a single nuclear weapon has been discovered outside the control of Russia's nuclear custodians. [86] The Belfer Center is itself running the Project on Managing the Atom, Matthew Bunn is a co-principal investigator of the project, Martin B. Malin is its executive director (circa. 2014). [87]
In August 2002, the United States launched a program to track and secure enriched uranium from 24 Soviet-style reactors in 16 countries, in order to reduce the risk of the materials falling into the hands of terrorists or "rogue states". The first such operation was Project Vinca , "a multinational, public-private effort to remove nuclear material from a poorly-secured Yugoslav research institute." The project has been hailed as "a nonproliferation success story" with the "potential to inform broader 'global cleanout' efforts to address one of the weakest links in the nuclear nonproliferation chain: insufficiently secured civilian nuclear research facilities." [88]
In 2004, the U.S. Global Threat Reduction Initiative (GTRI) was established in order to consolidate nuclear stockpiles of highly enriched uranium (HEU), plutonium, and assemble nuclear weapons at fewer locations. [89] Additionally, the GTRI converted HEU fuels to low-enriched uranium (LEU) fuels, which has prevented their use in making a nuclear bomb within a short amount of time. HEU that has not been converted to LEU has been shipped back to secure sites, while amplified security measures have taken hold around vulnerable nuclear facilities. [90]
Robert Gallucci, President of the John D. and Catherine T. MacArthur Foundation, argues that traditional deterrence is not an effective approach toward terrorist groups bent on causing a nuclear catastrophe. [91] Henry Kissinger, stating the wide availability of nuclear weapons makes deterrence “decreasingly effective and increasingly hazardous.” [92] Preventive strategies, which advocate the elimination of an enemy before it is able to mount an attack, are risky and controversial, therefore difficult to implement. Gallucci believes that “the United States should instead consider a policy of expanded deterrence, which focuses not on the would-be nuclear terrorists but on those states that may deliberately transfer or inadvertently lead nuclear weapons and materials to them. By threatening retaliation against those states, the United States may be able to deter that which it cannot physically prevent.”. [91]
Graham Allison makes a similar case, arguing that the key to expanded deterrence is coming up with ways of tracing nuclear material to the country that forged the fissile material. “After a nuclear bomb detonates, nuclear forensic cops would collect debris samples and send them to a laboratory for radiological analysis. By identifying unique attributes of the fissile material, including its impurities and contaminants, one could trace the path back to its origin.” [93] The process is analogous to identifying a criminal by fingerprints. “The goal would be twofold: first, to deter leaders of nuclear states from selling weapons to terrorists by holding them accountable for any use of their own weapons; second, to give every leader the incentive to tightly secure their nuclear weapons and materials.” [93]
John Mueller, a scholar of international relations at the Ohio State University, is a prominent nuclear skeptic. He makes three claims: (1) the nuclear intent and capability of terrorist groups such as Al Qaeda has been “fundamentally exaggerated;” (2) “the likelihood a terrorist group will come up with an atomic bomb seems to be vanishingly small;” and (3) policymakers are guilty of an “atomic obsession” that has led to “substantively counterproductive” policies premised on “worst case fantasies.” [94] In his book Atomic Obsession: Nuclear Alarmism from Hiroshima to Al-Qaeda he argues that: "anxieties about terrorists obtaining nuclear weapons are essentially baseless: a host of practical and organizational difficulties make their likelihood of success almost vanishingly small". [95]
Intelligence officials have pushed back, testifying before Congress that the inability to recognize the shifting modus operandi of terrorist groups was part of the reason why members of Aum Shinrikyo, for example, were “not on anybody’s radar screen.” [96] Matthew Bunn, associate professor at Harvard University's John F. Kennedy School of Government, argues that “Theft of HEU and plutonium is not a hypothetical worry, it is an ongoing reality." [39] Almost all of the stolen HEU and plutonium that has been seized over the years had never been missed before it was seized. The IAEA Illicit Nuclear Trafficking Database notes 1,266 incidents reported by 99 countries over the last 12 years, including 18 incidents involving HEU or plutonium trafficking. [39]
Keir Lieber and Daryl Press argue that despite the prominent U.S. focus on nuclear terrorism, "the fear of terrorist transfer [of nuclear weapons] seems greatly exaggerated... [and] the dangers of a state giving nuclear weapons to terrorists have been overstated." A decade of terrorism statistics show a strong correlation between attack fatalities and the attribution of the attack, and Lieber and Press assert that "neither a terror group nor a state sponsor would remain anonymous after a nuclear terror attack." About 75 percent of attacks with 100 or more fatalities were traced to the culprits; also, 97 percent of attacks on U.S. soil or that of a major ally (resulting in 10 or more deaths) were attributed to the guilty party. Lieber and Press conclude that the lack of anonymity would deter a state from providing terrorist groups with nuclear weapons. [97]
The use of HEU and plutonium in satellites has raised the concern that a sufficiently motivated rogue state could retrieve materials from a satellite crash (notably on land as occurred with Kosmos-954, Mars-96 and Fobos-Grunt) and then use these to supplement the yield of an already working nuclear device. This has been discussed recently in the UN and the Nuclear Emergency Search Team regularly consults with Roscosmos and NASA about satellite re-entries that may have contained such materials. As yet no parts were verifiably recovered from Mars 96 but recent WikiLeaks releases suggest that one of the "cells" may have been recovered by mountain climbers in Chile.[ citation needed ]
On April 12–13, 2010, President of the United States Barack Obama initiated and hosted the first-ever nuclear security summit in Washington D.C., commonly known as the Washington Nuclear Security Summit. The goal was to strengthen international cooperation to prevent nuclear terrorism. President Obama, along with nearly fifty world leaders, discussed the threat of nuclear terrorism, what steps needed to be taken to mitigate illicit nuclear trafficking, and how to secure nuclear material. The Summit was successful in that it produced a consensus delineating nuclear terrorism as a serious threat to all nations. Finally, the Summit produced over four-dozen specific actions embodied in commitments by individual countries and the Joint Work Plan. [98] However, world leaders at the Summit failed to agree on baseline protections for weapons-usable material, and no agreement was reached on ending the use of highly enriched uranium (HEU) in civil nuclear functions. Many of the shortcomings of the Washington Nuclear Security Summit were addressed at the Seoul Nuclear Security Summit in March 2012, including a focus on nuclear detection. [99]
According to Graham Allison, director of Harvard University’s Belfer Center for Science and International Affairs, the objectives of the Nuclear Security Summit in Seoul are to continue to, “assess the progress made since the Washington Summit and propose additional cooperation measures to (1) Combat the threat of nuclear terrorism, (2) protect nuclear materials and related facilities, and (3) prevent illicit trafficking in nuclear materials." [100]
In 2011, the British news agency, TheTelegraph, received leaked documents regarding the Guantanamo Bay interrogations of Khalid Sheikh Mohammed. The documents cited Khalid saying that, if Osama bin Laden is captured or killed by the Coalition of the Willing, an al-Qaeda sleeper cell will detonate a "weapon of mass destruction" in a "secret location" in Europe, and promised it would be "a nuclear hellstorm". [101] [102] [103] [104] No such attack occurred after the killing of Osama bin Laden in 2011.
A nuclear weapon is an explosive device that derives its destructive force from nuclear reactions, either fission or a combination of fission and fusion reactions, producing a nuclear explosion. Both bomb types release large quantities of energy from relatively small amounts of matter.
The Treaty on the Non-Proliferation of Nuclear Weapons, commonly known as the Non-Proliferation Treaty or NPT, is an international treaty whose objective is to prevent the spread of nuclear weapons and weapons technology, to promote cooperation in the peaceful uses of nuclear energy, and to further the goal of achieving nuclear disarmament and general and complete disarmament. Between 1965 and 1968, the treaty was negotiated by the Eighteen Nation Committee on Disarmament, a United Nations-sponsored organization based in Geneva, Switzerland.
Nuclear proliferation is the spread of nuclear weapons, fissionable material, and weapons-applicable nuclear technology and information to nations not recognized as "Nuclear Weapon States" by the Treaty on the Non-Proliferation of Nuclear Weapons, commonly known as the Non-Proliferation Treaty or NPT. Proliferation has been opposed by many nations with and without nuclear weapons, as governments fear that more countries with nuclear weapons will increase the possibility of nuclear warfare, de-stabilize international or regional relations, or infringe upon the national sovereignty of nation states.
A dirty bomb or radiological dispersal device is a radiological weapon that combines radioactive material with conventional explosives. The purpose of the weapon is to contaminate the area around the dispersal agent/conventional explosion with radioactive material, serving primarily as an area denial device against civilians. It is not to be confused with a nuclear explosion, such as a fission bomb, which produces blast effects far in excess of what is achievable by the use of conventional explosives. Unlike the rain of radioactive material from a typical fission bomb, a dirty bomb's radiation can be dispersed only within a few hundred meters or a few miles of the explosion.
Radiological warfare is any form of warfare involving deliberate radiation poisoning or contamination of an area with radiological sources.
A nuclear and radiation accident is defined by the International Atomic Energy Agency (IAEA) as "an event that has led to significant consequences to people, the environment or the facility." Examples include lethal effects to individuals, large radioactivity release to the environment, or a reactor core melt. The prime example of a "major nuclear accident" is one in which a reactor core is damaged and significant amounts of radioactive isotopes are released, such as in the Chernobyl disaster in 1986 and Fukushima nuclear disaster in 2011.
Pakistan is one of nine states that possess nuclear weapons. Pakistan began developing nuclear weapons in January 1972 under Prime Minister Zulfikar Ali Bhutto, who delegated the program to the Chairman of the Pakistan Atomic Energy Commission (PAEC) Munir Ahmad Khan with a commitment to having the device ready by the end of 1976. Since PAEC, which consisted of over twenty laboratories and projects under reactor physicist Munir Ahmad Khan, was falling behind schedule and having considerable difficulty producing fissile material, Abdul Qadeer Khan, a metallurgist working on centrifuge enrichment for Urenco, joined the program at the behest of the Bhutto administration by the end of 1974. Producing fissile material was pivotal to the Kahuta Project's success and thus to Pakistan obtaining the capability to detonate a nuclear weapon by the end of 1984.
From the 1960s to the 1990s, South Africa pursued research into weapons of mass destruction, including nuclear, biological, and chemical weapons under the apartheid government. South Africa’s nuclear weapons doctrine was designed for political leverage rather than actual battlefield use, specifically to induce the United States of America to intervene in any regional conflicts between South Africa and the Soviet Union or its proxies. To achieve a minimum credible deterrence, a total of six nuclear weapons were covertly assembled by the late 1980s.
Iran is not known to currently possess weapons of mass destruction (WMD) and has signed treaties repudiating the possession of WMD including the Biological Weapons Convention, the Chemical Weapons Convention, and the Non-Proliferation Treaty (NPT). Iran has first-hand knowledge of WMD effects—over 100,000 Iranian troops and civilians were victims of chemical weapons during the 1980s Iran–Iraq War.
Since the mid-20th century, plutonium in the environment has been primarily produced by human activity. The first plants to produce plutonium for use in Cold War atomic bombs were the Hanford nuclear site in Washington, and the Mayak nuclear plant, in Chelyabinsk Oblast, Russia. Over a period of four decades, "both released more than 200 million curies of radioactive isotopes into the surrounding environment – twice the amount expelled in the Chernobyl disaster in each instance."
Terrorist tactics tend to favor attacks that avoid effective countermeasures and exploit vulnerabilities.
A fizzle occurs when the detonation of a device for creating a nuclear explosion grossly fails to meet its expected yield. The bombs still detonate, but the detonation is much weaker than anticipated. The cause(s) for the failure might be linked to improper design, poor construction, or lack of expertise. All countries that have had a nuclear weapons testing program have experienced some fizzles. A fizzle can spread radioactive material throughout the surrounding area, involve a partial fission reaction of the fissile material, or both. For practical purposes, a fizzle can still have considerable explosive yield when compared to conventional weapons.
The Global Initiative to Combat Nuclear Terrorism (GICNT) is an international organization consisting of 89 countries that have endorsed a set of nuclear security principles for nuclear terrorism deterrence, prevention, detection, and response. It is co-chaired by the United States and Russia. The organization aims to develop partnership capacity to combat nuclear terrorism, consistent with national legal authorities and obligations as well as relevant international legal frameworks such as the Convention for the Suppression of Acts of Nuclear Terrorism, the Convention on the Physical Protection of Nuclear Material, and United Nations Security Council Resolutions 1373 and 1540.
Jessica Eve Stern is an American scholar and academic on terrorism. Stern serves as a research professor at the Pardee School of Global Studies at Boston University. Earlier she had been a lecturer at Harvard University. She serves on the Hoover Institution Task Force on National Security and Law. In 2001, she was featured in Time magazine's series on Innovators. In 2009, she was awarded a Guggenheim Fellowship for her work on trauma and violence. Her book ISIS: The State of Terror (2015), was co-authored with J.M. Berger.
The 2010 Nuclear Security Summit was a summit held in Washington, D.C., on April 12 and 13, 2010. The Summit focused on how to better safeguard weapons-grade plutonium and uranium to prevent nuclear terrorism.
The 2012 Nuclear Security Summit was a summit held at the COEX Convention & Exhibition Center in Seoul, South Korea, on March 26 and 27, 2012. It was the second time the conference was held after the 2010 Nuclear Security Summit.
The vulnerability of nuclear plants to deliberate attack is of concern in the area of nuclear safety and security. Nuclear power plants, civilian research reactors, certain naval fuel facilities, uranium enrichment plants, fuel fabrication plants, and even potentially uranium mines are vulnerable to attacks which could lead to widespread radioactive contamination. The attack threat is of several general types: commando-like ground-based attacks on equipment which if disabled could lead to a reactor core meltdown or widespread dispersal of radioactivity, external attacks such as an aircraft crash into a reactor complex, or cyber attacks.
Matthew Bunn is an American nuclear and energy policy analyst, currently a professor of practice at the Harvard Kennedy School at Harvard University. He is the Co-principal Investigator for the Belfer Center's Project on Managing the Atom.
The Danube Program was a secret Romanian project to develop their own nuclear weapons. The project began in 1978, and lasted until 1989.
Material unaccounted for (MUF), in the context of nuclear material, refers to any discrepancy between a nuclear-weapons state's physical inventory of nuclear material, and the book inventory. The difference can be either a positive discrepancy or a negative discrepancy. Nuclear accounting discrepancies are commonplace and inevitable due to the problem of accurately measuring nuclear materials. This problem of inaccurate measurement provides a potential loophole for diversion of nuclear materials for weapons production. In a large plant, even a tiny percentage of the annual through-put of nuclear material will suffice to build one or more nuclear weapons.
{{cite web}}
: CS1 maint: multiple names: authors list (link){{cite book}}
: CS1 maint: location missing publisher (link){{cite book}}
: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)A Defense Department official said Abu Zubaydah, a top al-Qaeda official in U.S. custody, led U.S. authorities to Al Muhajir—possibly to try to sow fear in the United States by showing that al-Qaeda had recruited an American. Al Muhajir met Zubaydah in Afghanistan last year and then traveled to Pakistan, where he studied how to assemble a radioactive bomb at an al-Qaeda safe house in Lahore, a senior U.S. law enforcement official said. Weeks later, Al Muhajir met with senior al-Qaeda leaders in Karachi.
U.S. officials say that Padilla, who used the Muslim name Abdullah al Muhajir, studied bomb-making early this year at an Al Qaeda safe house in Lahore, met with senior Al Qaeda officials in March at another safe house in Karachi and traveled elsewhere in the country. Pakistani police arrested Padilla's alleged accomplice in Rawalpindi. Although Padilla's role was not known at the time, U.S. and Pakistani officials raided the Lahore safe house where he had stayed as well as suspected Al Qaeda compounds in several other cities March 28. Abu Zubeida [Abu Zubaydah], Al Qaeda's operations chief, and several of his senior aides were captured after a shootout that night at a house in Faisalabad.
{{cite book}}
: CS1 maint: location missing publisher (link){{cite book}}
: CS1 maint: multiple names: authors list (link)Media related to Nuclear terrorism at Wikimedia Commons