Nuclear Issues

192 Items

Tomas Roggero via Flickr

Tomas Roggero via Flickr

Report Chapter - Women’s International League for Peace and Freedom

Assuring Destruction Forever: 2022 Edition

| January 2022

Under the guidance of its self-defence nuclear strategy, China will continue to modernise its nuclear force in order to maintain a reliable second-strike retaliatory capability. China’s nuclear weapon modernisation has been responsive to the advances of military capabilities of other countries, particularly the US. As Hu Side emphasised, “The sole purpose for China to maintain a limited nuclear counterattack force is to deter a potential nuclear strike. However, the development of US missile defense and the long-rang strike capability with high accuracy to target mobile missiles is in practice to decrease the effectiveness of Chinese nuclear deterrence. Thus, it surely leads to Chinese attention."

President Joe Biden meets virtually with Chinese President Xi Jinping from the Roosevelt Room of the White House in Washington, Monday, Nov. 15, 2021.

AP Photo/Susan Walsh

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

The U.S.-China Future: Competition and Collaboration With a Rising China

| Fall 2021

Whether they regard it as competitive, cooperative, or confrontational, virtually all observers agree that the U.S.-China relationship is consequential. From cyber norms and AI to military tensions in the Taiwan Strait and the global struggle to turn the tide on climate change, how Washington and Beijing manage their shared future will shape the globe for decades to come. Through research and relationship-building, the Center is dedicated to helping the U.S. and China collaborate and compete without conflict.

A Russian Tu-95 bomber, top, is intercepted by a U.S. F-22 Raptor off the coast of Alaska in this photo taken June 16, 2020. (North American Aerospace Defense Command via AP)

North American Aerospace Defense Command via AP

How Do U.S. and Russian Defense Sectors Influence Policies?

Fall 2021

Whenever Washington or Moscow unveils a new weapon, ears in the other capital perk up and analysts try to divine how the new system fits into U.S. or Russian military strategy—not least of all, strategy toward its Cold War-era nemesis. But how often do decisions related to national security arise because of institutional forces only tenuously related to states’ strategic planning? More specifically, how do the countries’ respective defense industries influence policy? The Belfer Center’s Russia Matters project asked two scholars—one American, one Russian—to investigate the latter question. Their articles, published in November, reveal fascinating differences (and similarities) in the way this influence is exercised in countries with vastly different political and economic systems.

A satellite photo showing heavy snows along the Korean coast, mid-February 2011.

NASA images courtesy MODIS Rapid Response Team at NASA GSFC

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

A Policy of Public Diplomacy with North Korea

| August 2021

The Biden administration has emphasized the importance of alliances and core values of democracy in its foreign policy approach. Given this emphasis, public diplomacy—activities intended to understand, inform, and influence foreign audiences—should be considered an essential tool in achieving our long-term policy objectives in North Korea. Public diplomacy has the potential to spur domestic change in North Korea—change that could result in improved human rights conditions, leading to behavioral change in the Kim regime, and eventually denuclearization.

Demonstration reprocessing and mixed-oxide facilities under construction in Gansu Province, China. Satellite image from August 29, 2019.

Maxar Technologies/Google Earth

Report Chapter - Nonproliferation Policy Education Center

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

| March 2021

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.

Tractors on Westminster bridge

AP/Matt Dunham

Paper - Institut für Sicherheitspolitik

The Global Order After COVID-19

| 2020

Despite the far-reaching effects of the current pandemic,  the essential nature of world politics will not be transformed. The territorial state will remain the basic building-block of international affairs, nationalism will remain a powerful political force, and the major powers will continue to compete for influence in myriad ways. Global institutions, transnational networks, and assorted non-state actors will still play important roles, of course, but the present crisis will not produce a dramatic and enduring increase in global governance or significantly higher levels of international cooperation. In short, the post-COVID-19 world will be less open, less free, less prosperous, and more competitive than the world many people expected to emerge only a few years ago.

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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.

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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.