5 Items

Senator Lugar at a 2012 ceremony where he received the Distinguished Public Service Award, the highest award the Department of Defense can give a civilian, for his work to help denuclearize countries after the fall of the Soviet Union (DoD photo by Erin A. Kirk-Cuomo).

DoD photo by Erin A. Kirk-Cuomo

Analysis & Opinions - Bulletin of the Atomic Scientists

Senator Richard G. Lugar: An Appreciation

| Apr. 30, 2019

Sen. Richard Lugar—with his legislative partner, Sen. Sam Nunn—imagined the unimaginable. He championed a program to provide assistance to military forces in the former Soviet republics holding tens of thousands of nuclear, chemical, and biological weapons aimed at the United States and our allies, shortly after America’s existential enemy, the Soviet Union, expired. All told, the Nunn-Lugar cooperative threat reduction program provided more than $14 billion to, among other things, deactivate 13,300 nuclear warheads, eliminate 1,473 intercontinental ballistic missiles, and destroy almost 40,000 metric tons of chemical agents. The US departments of Defense and Energy also worked with Russia to improve security at 148 sites still holding nuclear weapons or weapons-grade material from Murmansk to Kamchatka.

A U.S. Trident II missile launches (Wikimedia Commons).

Wikimedia Commons

Analysis & Opinions - War on the Rocks

Can This New Approach to Nuclear Disarmament Work?

| Jan. 23, 2019

An estimated 14,485 nuclear weapons exist on earth today — most are far more powerful than those that twisted railway ties, leveled buildings, and crushed, poisoned, and burned human beings in Hiroshima and Nagasaki. The majority of these weapons belong to the United States and Russia. For some in the U.S. government, including Chris Ford, assistant secretary at the State Department’s Bureau of International Security and Nonproliferation, this number represents significant disarmament progress since Cold War highs of over 70,000 nuclear weapons. They argue the current security environment means that further reductions are not possible at this time. In contrast, for many disarmament advocates and officials from non-nuclear weapons states, this number is still far too high. They are now clamoring to ban all nuclear weapons. Because of this divide, according to Ford, we currently face a “disarmament crisis.”

Finnish President Sauli Niinisto speaks during a press conference regarding the upcoming Trump-Putin Summit, in his official residence, Helsinki, Finland on Thursday, June 28, 2018. (Roni Rekomaa/Lehtikuva via AP)

Roni Rekomaa/Lehtikuva via AP

Analysis & Opinions - Foreign Policy

The Trump-Putin Summit’s Potential Nuclear Fallout

| July 10, 2018

The July 16 summit in Helsinki between Presidents Donald Trump and Vladimir Putin presents a unique opportunity to reverse the dangerous nuclear competition between the United States and Russia and should be welcomed, despite its inherent risks. The opportunity to stabilize U.S.-Russian nuclear relations by extending New START, a key nuclear treaty that is set to expire in 2021, is paramount and worth the issues that come with any meeting between Trump and Putin.

AP/Evan Vucci, Wong Maye-E

AP/Evan Vucci, Wong Maye-E

Analysis & Opinions - Bulletin of the Atomic Scientists

A Roadmap for the Day After the Trump-Kim Summit

| Apr. 17, 2018

President Trump surprised almost everyone—probably not the least Kim Jong-un—when he agreed to meet the North Korean leader at the end of May (now maybe early June). By accepting Kim’s invitation, President Trump overturned decades of conventional wisdom on how to separate North Korea from its nuclear and other WMD programs. If Trump and Kim meet—as of now this is still a big “if,” although North Korea has now confirmed its willingness to meet directly—the summit could be an important ice breaker and open up a chance to resolve the North Korean nuclear crisis and bring peace to the Korean peninsula. But success, however remote it may seem, will require new thinking and entail major risks. It will also require a plan.

In this April 30, 2009 photo, a carbon dioxide capture system is seen under construction at American Electric Power's Mountaineer Plant in New Haven, W.Va.

AP Photo

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

CCS: Competitive Today. We Cannot Wait until Tomorrow

| March 8, 2010

"Since last year, American Electric Power Mountaineer has employed CCS on a smaller scale of about 30 megawatts and, as such, is a unique example of CCS technology working today. As CCS scales up from this small size, the risks of capture and transport are negligible, making larger plants possible. Because renewables, for various reasons, cannot be implemented at the large scale sufficient to meet the 80 percent emissions reduction goals, we must deploy CCS for larger-scale commercialization. As a crucial means of decarbonizing some industrial processes, CCS will reduce emissions across industries, allowing chemical producers, for example, to meet their targets."