Reports & Papers

240 Items

Report

The Case for Increased Transatlantic Cooperation on Artificial Intelligence

    Authors:
  • Christie Lawrence
  • Sean Cordey
| August 2020

This report’s purpose is twofold: first, to inform policymakers and researchers about the current state of transatlantic AI efforts; and second, to recommend specific areas where transatlantic AI collaboration should be strengthened. Based on a comprehensive study of over 260 documents and reports covering the period from December 1997 to June 2020, we proposes more than 16 recommendations to increase US-EU AI collaboration across the entire AI ecosystem, as well as 9 recommendations for AI cooperation in the healthcare, environmental sciences, and defense sectors. Greater transatlantic efforts are needed to prevent the advancement of an AI vision that is adversarial and harmful to the wellbeing of the United States, the European Union, and allies.

teaser image

Paper - Nonproliferation Policy Education Center

China’s Uranium Enrichment and Plutonium Recycling 2020-2040: Current Practices and Projected Capacities

| July 16, 2020

Since 2010, China has significantly expanded its indigenous enrichment capacity to meet the expected rapid increase of enrichment requirements. Meanwhile, China has expanded its plutonium reprocessing and recycling capabilities for “saving uranium.” The purpose of this report is to provide a better understanding of the development of China’s uranium enrichment and plutonium recycling programs.

teaser image

Paper - Institute for Nuclear Materials Management

Assessing China's Plutonium Separation and Recycling Programs

| July 2020

China pursues actively its closed fuel-cycle policy. In 2010, it began testing a pilot civilian reprocessing plant (50 tHM/year). In 2015, China began construction of the demonstration reprocessing plant (200 tHM/year). China has also been negotiating with France over the purchase of a commercial reprocessing plant with a capacity of 800 tHM/year. China’s Experimental Fast Reactor (20 MWe) started operation in 2010. Construction of the CFR-600 demonstration fast reactor began in 2017. This work will assess those plutonium separation and recycling programs. Further, it will estimate their cumulative plutonium production and discuss the potential uses of separated plutonium in China’s fast reactors over next two decades.

teaser image

Paper - Institute of Nuclear Materials Management

The Development Status of China's Uranium Enrichment

| July 2020

China leads the world in term of nuclear power development pace and new reactor construction. To meet the expected rapid increase of enrichment requirements, since 2010 the China National Nuclear Corporation (CNNC) has expanded significantly its indigenous centrifuge enrichment capacity. However, China does not officially release information on its enrichment capacity. Based on satellite imagery, Chinese publications, and discussions with Chinese experts, this work will examine the current status of China's uranium-enrichment development and offer significant new estimates of the capacity of China's operating enrichment facilities.

teaser image

Paper - Institute for Nuclear Materials Management

IAEA Nuclear Security Recommendations (INFCIRC/225): The Next Generation

In 2011, the International Atomic Energy Agency (IAEA) released the fifth revision of its Nuclear Security Recommendations on Physical Protection of Nuclear Material and Nuclear Facilities. This update of IAEA nuclear security guidance was a significant improvement upon its predecessors, suggesting new and strengthened approaches to nuclear security in a range of areas. Nearly a decade later, however, the global nuclear security landscape has changed. Nuclear security regulations and practices have improved. International institutions and norms supporting global nuclear security architecture are stronger. Countries have made new political commitments to strengthening their nuclear security. Legally binding agreements are more widely subscribed than they were before. Meanwhile, new global threats have surfaced, presenting new challenges to physical protection systems. A range of emerging technologies creates new opportunities, but also new risks.

A nuclear advanced designated marksman assists in a launch facility exercise.

Beau Wade, 341st Missile Wing Public Affairs

Paper - Belfer Center for Science and International Affairs, Harvard Kennedy School

A Sense of Purpose: The Bedrock of the U.S. Nuclear Deterrent

| June 2020

"The paradox of war is, the adversary will always move against your perceived weakness.  So a safe, secure and effective nuclear deterrent is there to ensure a war that can never be won, is never fought." Former Secretary of Defense James Mattis went on to say, "I am absolutely convinced that having this safe, secure, and effective deterrent is critical—the most critical piece of our nation's defense."  “At the end of the day, deterrence comes down to the men and women in uniform.” The question this paper addresses is: how do we motivate Airmen to give their best to perform this unsung duty, day after day, for years at a time?

 

In this April 22, 2020 photo, Gerard Bakulikira, right, and captain Tim Daghelet, left, both wear a Romware COVID Radius digital bracelet, which flashes red when people are too close to each other and creates a log of contacts. 

AP Photo/Virginia Mayo

Paper

Considerations for Digital Contact Tracing Tools for COVID-19 Mitigation: Recommendations for Stakeholders and Policymakers

Many are looking to digital contact tracing to assist reopening efforts, especially in light of reports that the U.S. could expect as many as 100,000 more deaths due to the virus by this Fall. This report focuses on how the U.S. might consider various proposed solutions.

We believe there are real benefits, challenges, and even potential harms in using digital solutions in the fight against COVID-19, but we must also acknowledge that the promise of any technology and associated systems to assist manual contact tracing efforts is largely hypothetical in the United States. There is not one catch-all answer; the truth is that technology is not a panacea, but it may be able to assist official efforts at an unprecedented time. However, no technological solution can succeed without two specific factors: public trust and buy-in, and rapid, widespread testing for everyone living in the U.S. To achieve the first, a number of factors must be addressed by officials in the states looking to implement digital solutions, and by technology developers.
 

Nuclear test

Creative Commons/Pixabay

Report - American Nuclear Policy Initiative

Blundering Toward Nuclear Chaos

| May 2020

Edited by former Project on Managing the Atom (MTA) Associate Jon Wolfsthal and featuring papers authored by Wolfsthal and MTA Associate Nickolas Roth, this report from the American Nuclear Policy Initiative details the Trump administration's first three years of efforts on nuclear proliferation, strategic stability, nuclear modernization, Iran, and North Korea. The authors provide an objective summary of nuclear policy under the current administration and its record on protecting the United States and its allies against perhaps the greatest national security danger facing humanity.

Sensors and fencing at Japan's Integrated Support Center for Nuclear Nonproliferation and Nuclear Security.

Dean Calma/IAEA

Paper - American Nuclear Policy Initiative

The Trump Administration on Preventing Nuclear Terrorism

| May 2020

An act of nuclear terrorism anywhere in the world would be a humanitarian, economic, and political catastrophe. This is why reducing the risk of nuclear terrorism has been a priority for every US president for more than two decades. The most effective strategy for reducing this risk is to keep weapons-usable nuclear material out of the hands of terrorists by strengthening security at nuclear facilities around the globe. While the Trump administration continues to move forward with this mission, it has decreased the US focus on the most effective strategies for accomplishing it. Greater resources and political attention to international initiatives are needed to ensure that nuclear terrorism risks continue to decline. This paper reviews the key factors impacting nuclear terrorism risks and analyzes how much progress the Trump administration has made reducing that risk.

A satellite view of Shigatse, Tibet, home to the PLA’s 6th Border Defense Regiment, near the China-India border.

Maxar Technologies / CNES Airbus via Google, used with permission

Report - Managing the Atom Project, Belfer Center

The Strategic Postures of China and India: A Visual Guide

| March 2020

Fueled by aggressive rhetoric from both capitals, Indian and Chinese ground forces engaged in a standoff between June and August 2017. The Doklam crisis, as it became known, stimulated introspection among officials and experts in both states about the future of their relationship. Politically, both strategic communities largely concluded that the peaceful resolution of border disputes is now less likely, forecasting more rivalry than cooperation. Militarily, Indian discussions on the strength of its military position against China in their disputed ground frontier areas have converged on the view that China holds the conventional and nuclear edge over India in this domain.

Based on our analysis of data on the location and capabilities of Indian and Chinese strategic forces and related military units, we conclude that this assessment of the balance of forces may be mistaken and a poor guide for Indian security and procurement policies. We recommend that instead of investing in new nuclear weapons platforms that our analysis suggests are not likely to be required to deter China, New Delhi should improve the survivability of its existing forces and fill the gap in global arms control leadership with an initiative on restraint and transparency.