Articles

50 Items

Ambassador Ivor Richard, left, of the United Kingdom, and U.S. Ambassador Andrew Young, right, raise their arms during vote, Friday, Nov. 4, 1977 at the United Nations Security Council.

(AP Photo/Dave Pickoff)

Journal Article - Quarterly Journal: International Security

Caught Red-Handed: How States Wield Proof to Coerce Wrongdoers

| Fall 2021

States frequently acquire proof that other states have violated norms. Yet, existing theories do not fully explain how states wield such proof to coerce wrongdoers. Four case studies of nuclear proliferation probe a novel theory of how states coerce norm violators by concealing, sharing privately, or publicizing proof of guilt.

U.S. President Dwight D. Eisenhower and Secretary of State John Foster Dulles (from left) greet South Vietnamese President Ngo Dinh Diem at Washington National Airport

DoD/Department of the Air Force

Journal Article - Small Wars Journal

Bernard Fall as an Andrew Marshall Avant la Lettre (Part II)

| Dec. 09, 2019

SWJ interview with Nathaniel L. Moir, Ph.D., an Ernest May Postdoctoral Fellow in History and Policy at the Belfer Center for Science and International Affairs, Harvard Kennedy School. Dr. Moir is completing a book manuscript on Bernard Fall for publication.

Steam billowing from cooling tower of nuclear power plant

AP Photo/David Veis/CTK

Journal Article - Quarterly Journal: International Security

Proliferation and the Logic of the Nuclear Market

| Spring 2019

What explains the scale and speed of nuclear proliferation? One key factor is the level of competition among suppliers in the market for nuclear materials and technologies. When suppliers form a cartel, fewer countries can acquire what they need for a nuclear weapons program. If great power competition intensifies, suppliers will find it harder to cooperate and nuclear proliferation could accelerate.

Russian President Vladimir Putin speaks during his annual news conference in Moscow

AP/Alexander Zemlianichenko

Journal Article - Bulletin of the Atomic Scientists

How the Next Nuclear Arms Race Will Be Different from the Last One

| 2019

All the world's nuclear-armed states (except for North Korea) have begun modernizing and upgrading their arsenals, leading many observers to predict that the world is entering a new nuclear arms race. While that outcome is not yet inevitable, it is likely, and if it happens, the new nuclear arms race will be different and more dangerous than the one we remember. More nuclear-armed countries in total, and three competing great powers rather than two, will make the competition more complex. Meanwhile, new non-nuclear weapon technologies — such as ballistic missile defense, anti-satellite weapons, and precision-strike missile technology — will make nuclear deterrence relationships that were once somewhat stable less so.

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Magazine Article - H-Diplo/ISSF

Roundtable on Bargaining on Nuclear Tests: Washington And Its Cold War Rivals by Or Rabinowitz

| November 16, 2015

"In Bargaining on Nuclear Tests the historian Or Rabinowitz demonstrates the rare ability to engage with contemporary policy debates on nuclear proliferation and U.S. nonproliferation strategies on the one hand, and successfully utilize qualitative analytical frameworks in social science like prospect theory (19) on the other."

Journal Article - Taylor and Francis Science & Global Security

China's Uranium Enrichment Complex

| October 23, 2015

New public information allows a fresh estimate of China's current and under-construction uranium enrichment capacity. This paper uses open source information and commercial satellite imagery to identify and offer estimates of the capacity of China's 10 operating enrichment facilities, located at 4 sites, using centrifuge technology most likely based on adapting Russian technology. The total currently operating civilian centrifuge enrichment capacity is estimated to be about 4.5 million separative work units/year (SWU/year), with additional capacity estimated to be about 2 million SWU/year under construction. Also China could have an enrichment capacity of around 0.6 million SWU/year for non-weapon military uses (i.e., naval fuel) or dual use. These estimates are much larger than previous public estimates of China's total enrichment capacity. Further expansion of enrichment capacity may be likely since China will require about 9 million SWU/year by 2020 to meet the enriched uranium fuel needs for its planned nuclear power reactor capacity of 58 gigawatts-electric (GWe) by 2020 under its policy of self-sufficiency in the supply of enrichment services.