More than 450 nuclear tests were carried out by the Soviet Union in the isolated steppes of eastern Kazakhstan from 1949 to 1989. When the Soviet Union collapsed, the Russians pulled out and left the Kazakhs to their own devices – literally. Enough fissile material for a dozen or more nuclear weapons was left behind in mountain tunnels and bore holes, virtually unguarded and vulnerable to scavengers, rogue states or potential terrorists.

In a remarkable, yet closely held feat of collaboration between the United States, Russia and Kazakhstan, engineers and nuclear scientists from the three countries spent 15 years and $150 million to secure many of the tunnels and test areas at the sprawling Semipalatinsk Test Site. Siegfried S. Hecker, a senior fellow at Stanford's Center for International Security and Cooperation and professor (research) in the Department of Management Science and Engineering, launched the project while director of the Los Alamos National Laboratory. He used his personal ties with Russian scientists to prod them into working with the Americans and Kazakhs after a visit to the test site in 1998 left him stunned by the lack of security and the presence of scavengers.

It was one of the greatest nuclear nonproliferation stories never told, until the White House and Pentagon revealed some details in 2012, which David Hoffman and Eben Harrell of Harvard’s Belfer Center made public over the weekend in an in-depth report: Plutonium Mountain. In October 2012, officials from Kazakhstan, Russia and the United States dedicated a monument that simply reads: The world has become safer.

Hecker – who teaches the popular Stanford class, “Technology and National Security” with former Secretary of Defense William J. Perry – answers questions about the extraordinary Semipalatinsk mission. He also talks about next steps to secure the site.

Q: Why were you concerned about plutonium or highly enriched uranium scattered around the former Soviet test site? Did you see it as more than just an environmental and health problem?

Hecker: The atmospheric nuclear explosions resulted in environmental contamination because everything is vaporized in such an explosion. However, I was familiar with additional experiments we Americans performed at our Nevada Test Site and, in fact, some in bore holes at Los Alamos which left these materials much more intact and easily attainable, thus presenting proliferation or terrorism concerns.

Q: Why did you suspect the Soviets of conducting similar tests?

Hecker: We knew the Soviets had at least as robust a nuclear test and experimentation program as we had. If Nevada became an independent country tomorrow, the way the Soviet site now belongs to Kazakhstan, I would be very concerned. Besides, we had kept a close eye on what was going on at Semipalatinsk during the Cold War. It turned out that we had good reason to be concerned.

Q: You were director of the Los Alamos National Laboratory. Why did you get personally involved in this project?

Hecker: The great thing about being at Los Alamos was that you have so many bright people around you who kept track of everything going on in the security world. It was our scientists who had been tracking the Soviets for decades who brought these issues to my attention. These problems involved more than science; they involved politics and diplomacy, and with those they needed help. They also needed someone who understood the problem and could get action in Washington.

Q: Was this the first time you got involved with the Russian nuclear complex?

Hecker: No, on Aug. 17, 1988, 25 years ago, I was sitting in the Nevada Test Site control room for the detonation of one of our nuclear devices. What was remarkable is that across from me was Viktor Mikhailov, leader of a Soviet scientific delegation and later minister of atomic energy. We were conducting an experiment to verify that the other side could adequately monitor the size of nuclear explosions. It was part of the Reagan-Gorbachev set of initiatives to end the Cold War and grew out of technical discussions on the sideline of meetings to negotiate verification measures for the Threshold Test Ban Treaty.

Q: How did this experience play a role in the Semipalatinsk project?

Hecker: We worked together with the Russian nuclear weapons scientists for the first time in Nevada and in a reciprocal nuclear test at Semipalatinsk on Sept. 14, 1988. These events began the essential process of building the personal trust necessary to work side by side to tackle problems like those at Semipalatinsk.

Q: You visited the Russian nuclear weapons labs in early 1992, right after the dissolution of the Soviet Union. Did they tell you about the problems at Semipalatinsk then?

Hecker: No. They had fond memories of the nuclear testing days at Semipalatinsk. They thought it was tragic that Russia lost such an important asset to the now-independent country of Kazakhstan. They believed the real estate and its problems now belonged to Kazakhstan. The Russian government did not want to be stuck with a bill to clean up the test site and believed the highly publicized environmental issues were greatly overblown.

Q: But surely they must have known that there was a proliferation risk with all the plutonium and highly enriched uranium that was left behind from their tests?

Hecker: In the 1990s, the Russian nuclear weapons labs had bigger problems. They were worried about survival and how to pay their people. One has to put the Semipalatinsk issue in perspective. During one of my many visits to the Russian labs the scientists told me that they had not been paid for nearly six months. They also did not think that someone would look for nuclear materials in such a desolate place.

Q: How did you confirm your suspicions that the problems at Semipalatinsk were more than an environmental problem?

Hecker: We got some discomforting reports from Kazakh scientists that prompted us to investigate this issue further.

Q: How did you get involved with them?

Hecker: The U.S. government began a project in the early 1990s with the Kazakhs to close the testing tunnels and eliminate the nuclear testing infrastructure at Semipalatinsk under the Nunn-Lugar Cooperative Threat Reduction program. That was the first major U.S.-Kazakh effort. We also involved the Kazakhs in an extension of programs we developed with the Russians on nuclear materials security. That brought Los Alamos and other Department of Energy laboratory scientists to the nuclear reactor on the Caspian Sea; to one in Almaty, Kazakhstan’s capital at that time; and to research reactors at the test site.

Q: Did Kazakh scientists who visited Los Alamos and confirm your worst fears?

Hecker: As part of the Nunn-Lugar program, the U.S. established what was called an International Science and Technology Center program with the Kazakhs to help scientists make the post-Cold War transition to civilian work. That program brought Kazakh scientists to work with my colleagues at Los Alamos. It was a January 1998 visit by Kairat Kadyrzhanov, director of the Kazakh Institute of Nuclear Physics, which confirmed my fears. He told me not only about finding radioactive hot spots on the test site, but also about not being able to control the metal scavengers digging up copper cables to sell. And he invited me to Semipalatinsk.

Q. What did you find during your April 1998 visit to Semipalatinsk?

Hecker: I was alarmed to find unmanned guard posts and virtually no security at the site. My Los Alamos colleagues and I became convinced that Semipalatinsk was not only a serious proliferation problem, but also an urgent one. The copper cable thieves were not nomads on camelback, but instead they employed industrial excavation machinery and left kilometers of deep trenches digging out everything they could sell. We were concerned that some of that copper cabling could lead to plutonium residues.

Rachel Maddow, on Hecker's work (please bear with us on the initial ad):

Q: How did you convince Washington and Moscow that we had a problem that needed to be addressed on a trilateral basis?

Hecker: Washington was easy. We briefed then-DOE Assistant Secretary Rose Gottemoeller and Under Secretary Ernie Moniz. They were very supportive of our efforts. We also had a great advocate for our effort in Andy Weber in the Office of the Secretary of Defense. Moscow was more difficult. The Ministry of Atomic Energy was reluctant to get involved.

Q: What persuaded them to take action?

Hecker: I traveled to Sarov, the Russian Los Alamos, and showed director Rady Ilkaev the photos I had taken at Semipalatinsk. I asked if he was sure that they didn’t leave anything of concern behind. He talked to Ministry of Atomic Energy officials that night and sent the scientists who conducted some of the most important experiments at the site to see me the next morning. The Russian scientists knew this was important and they convinced Moscow that we should work together to mitigate the risks at the test site.

Q: Why did you need the Russians if you had good relations with the Kazakh nuclear establishment and the test site was now under their jurisdiction?

Hecker: Semipalatinsk is huge, almost the size of New Jersey and five times as big as the Nevada Test Site, so we wouldn’t know all the places to look. It would be like looking for a needle in a haystack. Besides, we would have little idea of how dangerous it was to dig around without knowing what we should expect to find. Only the Russians knew where to look and what to look for.

Q: Did the Russians scientist cooperate?

Hecker: The Russian scientists were terrific. Without their cooperation, none of this could have been done. Director Ilkaev cleared the way with Moscow. The two key scientists from Sarov, Dr. Yuri M. Styazhkin and Dr. Viktor S. Stepanyuk, felt it was their moral duty to help solve the problems they left behind. They spent the better part of the next 15 years working on this problem. Unfortunately, Dr. Styazhkin passed away and was not able to celebrate with us when we had a small gathering of scientists at the site last September, just before the official unveiling of the monument in October.

Q: What about the American side?

Hecker: The key technical person was my Los Alamos colleague, Dr. Philip Hemberger. He took over the daily scientific leadership and provided the trusted interface with the Russian scientists. He also spent a better part of the next decade, and his career, working on this problem. The Defense Threat Reduction Agency (DTRA) managed the project with oversight from Andy Weber in the Pentagon.

Q. What was physically done to secure the sites?

Hecker: One site required an enormous sarcophagus, at another huge metal vessels were filled with concrete and special materials, and some of the tunnels were filled with concrete. The entire region in question at the test site was equipped with video cameras, seismic sensors and drones feeding information back to a sophisticated control room. 

Q: Why did the operation take so long?

Hecker: The test site is huge. The Soviets conducted nuclear tests and other experiments there for 40 years. It involved their two weapons laboratories and multiple defense agencies. They were in a hurry, especially in the early years, and likely did not keep complete records. And, some of the key people were no longer alive. There were three countries involved and a lot of bureaucracy and diplomatic tussles, but the personal trust between the scientists helped to overcome the logjams.

Q: Was the length of time not related to lack of cooperation from the Russian side since they were reluctant to get involved in the first place?

Hecker: Yes, there was reluctance, but some of it was quite justified. For example, they were concerned that if we start digging around in some of the suspected areas, but then pull out U.S. support, we would leave the area more dangerous than it was before because now we had shown the scavengers where to look. They wanted to move step by step – identify an area, take samples and analyze the risk, then remediate if necessary. Trust was built along the way and they continued to roll out one problem area after another.

 The trust and personal relationships developed among the scientists in all three countries were crucial."

Q: Who paid for all of this?

Hecker: The Americans paid the entire bill. The project was managed by professionals from DTRA supported by Nunn-Lugar funds appropriated by the U.S. Congress.

Q: But why only American money?

Hecker: The Russians were in no position to pay at the beginning of the project, as 1998 was a year of financial meltdown for the Russian economy. If we waited for them to pay, the copper cable thieves may have beat us to the nuclear materials. Likewise, the Kazakhs did not have the financial means and they believed they were not responsible for creating the problem. On the other hand, the U.S. initiated the Nunn-Lugar program to reduce the nuclear risks we face from the proliferation of nuclear weapons or materials resulting from the disintegration of the Soviet Union. Washington, spanning three presidential administrations, was prepared and willing to pay. It was money well spent.

Hecker was astonished to find trenches where scavengers had dug up copper cables used in communications with the Semipalatinsk Test Site control room. Photo Credit: Siegfried Hecker

Q: Is the problem fully resolved now?

Hecker: No, it likely will never be. As the Russian scientist, Viktor Stepanyuk, wrote in one of his papers about the mission: “The `definitive reduction’ of proliferation risks … on the territory of the former STS (Semipalatinsk Test Site) can be realized only though comprehensive set of activities comprising physical protection, security, information and legal protection.” I believe it will require the attention of all three countries for a long time to come. During my visit to Semipalatinsk last September and in subsequent discussions, we agreed to hold a trilateral technical workshop early next year on the long-term future of Semipalatinsk.

Q: What were the secrets to success behind the Semipalatinsk Project?

Hecker: The Semipalatinsk project serves as a remarkable example of how scientists can work together and how their efforts should be reinforced by governments to address serious proliferation problems. The trust and personal relationships developed among the scientists in all three countries were crucial. American Nunn-Lugar funds were crucial and the effective project management by DTRA was essential as the project expanded.

Q: Do you see cooperation with the Russians as particularly important?

Hecker: Yes. The U.S. and Russia have special responsibilities to lead the world’s efforts in nuclear safety and security. They own the bulk of the world’s nuclear weapons, nuclear materials and nuclear facilities. The others pale in comparison. Semipalatinsk was only one example of how Russian and U.S. scientists cooperated to make the world safer. Russian and American scientists believe strongly that we have much more work to do. But the strained relations between Moscow and Washington are impeding our efforts. I hope the Semipalatinsk story reminds them that nuclear cooperation is in the interests of both sides.

Q: Finally, with success at Semipalatinsk, what keeps you awake at night now?

Hecker: Most certainly, the nuclear hotspots around the world, namely, North Korea; Iran and Israel in the Middle East; and Pakistan and India in South Asia. Of equal concern, however, is getting all countries to take nuclear safety and security seriously. They require constant vigilance – one is never done. There are no simple technical fixes. International cooperation at all levels is required to ensure that world-class nuclear safety and security is practiced at all nuclear sites around the globe  

American, Russian and Kazakh scientists at the so-called Atomic Lake, the crater created by a nuclear test fired on Jan. 15, 1965. Photo Credit: CISAC

HIROSHIMA, Japan – Keijiro Matsushima was in eighth grade, sitting at his school desk next to a window facing the sea. He recalled looking out at the sky the morning of Aug. 6, 1945, drawn to the sound of American B-29 bombers flying over his island.

Much of the Japanese population was starving. “They were so beautiful and I was so hungry that they looked like silver pancakes to me,” he said of the bombers overhead.

Matsushima figured it was a routine reconnaissance mission and turned back to his books.

Second later, he was hit by the blast. He felt the shockwave, then the wave of heat. He was forced to close his eyes when hit by a surge of blinding, orange light.

“The whole world turned into a sunset world,” he said. He covered his ears and jumped under his desk. Though his school was destroyed, a standing stairwell protected his desk.

Today, the 84-year-old retired schoolteacher is one of the storied hibakusha, the Japanese word for “explosion-affected person,” or survivors of the atomic bombs dropped by the B-29 bombers 68 years ago this week. Their average age is 78 and they have spent decades enduring discrimination and prejudice on top of their heartache 

Matsushima was addressing two dozen international scholars and policymakers at the Hiroshima Peace Memorial Museum, including a delegation from Stanford University collaborating with the city in its efforts to become an international symbol of peace.

“Seeing the Hiroshima museum and meeting with a hibakusha was a moving reminder of the importance of moving as far and as fast as we safely can toward a world without nuclear weapons,” said Scott Sagan, a Stanford political science professor and a senior fellow at the Center for International Security and Cooperation (CISAC) and its umbrella organization, the Freeman Spogli Institute for International Studies.

Matsushima sat in a classroom in the basement of the museum, seated before a map that laid out the hypocenter of the explosion. He was stoic in his narrative about events that day and often referred to himself as a “lucky boy.”

“It was a very bad war,” he said. “We didn’t know that at the time, and it continued on, a very long war. It just got worse and worse.”

Born in Hiroshima in 1929, Matsushima saw the militarization of his native city as he grew up. He remembers hearing optimistic statements about the grand Japanese success at Pearl Harbor, the surprise attack on the U.S. naval base in Hawaii on Dec. 7, 1941, which resulted in the U.S. declaration of war on the Empire of Japan.

The pressure on Japanese civilians mounted as the war prolonged; rationing of food, water and electricity took its toll on morale. By 1944, the U.S. had conquered several strategic Pacific islands, built airbases and began bombing Japanese cities.

As the Manhattan Project progressed, meetings of the Military Targeting Committee in 1945 designated certain Japanese cities as likely targets to test the new atomic device, including Hiroshima and Nagasaki.

The Enola Gay dropped the 4-ton atomic bomb on Hiroshima and half the city vanished, along with 70,000 to 80,000 lives, or a third of the populace.

Though Matsushima was in a classroom of 70 middle-school pupils, he remembers absolute silence after the “big noise.” He was relatively lucky; his school was on the outskirts of the blast radius, several kilometers from the hypocenter.

Though lacerated by glass and rubble, his bones were unbroken and he was able to walk. He helped a wounded classmate to a rescue truck – a young boy whom he would later learn had also survived.

“I think I should have tried rescuing others, but I was a 16-year-old, selfish young boy and I just wanted to leave the city as soon as possible,” Matsushima said with regret.

His mother had left Hiroshima a few months earlier to stay with her in-laws in the surrounding hills. Matsushima walked across the burning city, where tens of thousands of people lay wounded and pleading for help, for water, or for their gods. He walked all night until he arrived at his grandparents’ home.

The atomic bombings in Hiroshima and three days later in Nagasaki claimed between 150,000 and 240,000 lives. The bombs – dubbed Little Boy and Fat Man – would leave thousands more suffering from severe burns, radiation sickness and cancer.

Few cities in history are as closely associated with single, punctuating event than Hiroshima is with the bomb. The metropolis of 1.7 million people has been rebuilt in the last 68 years, its homes refurbished and its port revitalized.

Yet for generations, the city has been known as ground zero. Local leaders are trying to reinvent the city’s image as a beacon for global zero – the elimination of nuclear weapons.

“Policymakers of the world, how long will you remain imprisoned by distrust and animosity?”  Hiroshima Mayor Kazumi Matsui, himself the son of a hibakusha, asked in his annual peace declaration on Tuesday. “Do you honestly believe you can continue to maintain national security by rattling your sabers? Please come to Hiroshima. Encounter the spirit of the hibakusha. Look squarely at the future of the human family without being trapped in the past, and make the decision to shift to a system of security based on trust and dialogue.”

Sagan, one of the nation’s leading scholars on nuclear proliferation and safety, advocates for global nuclear disarmament as a member of the Hiroshima for Global Peace Task Force. He has worked closely for years with Hiroshima Prefecture Gov. Hidehiko Yuzaki in an effort to reach global zero.

“Our hope is that by hosting international conferences and research workshops, Hiroshima can turn from being the memorial site of the deadly ground zero to being the catalyst for moving to a world without nuclear weapons,” Sagan said.

In this photo on August 10, 1945, a mother and her son received a boiled rice ball from an emergency relief party. One mile southeast of Ground Zero, Nagasaki, August 10, 1945. Photo Credit: National Archives and Records Administration

 The visit to Hiroshima in late June by the Stanford delegation also included Francesca Giovannini, a MacArthur Nuclear Security Fellow at CISAC; Michael May, a CISAC faculty member and director emeritus of the Lawrence Livermore National Laboratory; and Edward Blandford, an assistant professor of nuclear engineering at the University of New Mexico and a former nuclear fellow at CISAC.

They were attending the conference, Learning from Fukushima, sponsored by the Japan Foundation Center for Global Partnership, CISAC, the American Academy of Arts and Sciences and the Hiroshima for Global Peace Project.

It brought together American and Japanese nuclear power and nonproliferation specialists as well as nuclear experts from Southeast Asia. They examined the regional implications of nuclear safety and regional security after the Fukushima nuclear power plant disaster.

A devastating earthquake and tsunami hit Japan in March 2011, prompting a nuclear meltdown and the release of radioactive materials from the plant.

Conference delegates listened to Matsushima’s story and met with Mayor Matsui and other city officials to discuss the American Academy of Arts and Sciences’ Global Nuclear Future Initiative, which Sagan co-chairs with Steven Miller from Harvard. It offers technical and safety advice to countries that are developing nuclear power programs, while examining the regional and global implications.

The Association of Southeast Asian Nations (ASEAN), the region’s most binding economic and political force, has long been proud of Southeast Asia’s status as a nuclear weapons-free zone. Vietnam, however, is changing that dynamic as it has commissioned several reactors from Russia, the first of which is expected to go online in 2020.

Scholars from Malaysia, Thailand, Singapore and Indonesia attended a panel to discuss proliferation, security and competition in the region and whether a nuclear-powered Vietnam would change the delicate balance of ASEAN.

Giovannini, who is also the program coordinator of the Global Nuclear Future Initiative, said her first visit to Hiroshima was spellbinding. The contrast between the vibrant, modern city and the heavy sorrow of its history was palpable. She said the narrative by Matsushima brought the 30-member delegation to silence.

“He was able to bring to life his memory, his past, and the history of the bombing through personal details that allowed us to picture vividly that little boy as he moved through what he called a ghost town,” Giovannini said.

She recalled someone asked Matsushima if he harbored enmity toward the United States.

“No,” he replied, and then smiled. “To move forward – one must forgive.”

Reed Jobs is a Stanford senior majoring in history and a CISAC honors student who traveled with the Stanford delegation to Hiroshima. His honors thesis will focus on the historical study of preventive warfare.

CISAC's Sig Hecker talks to one of India's most respected newspapers, The Hindu, about why he admires India's nuclear energy program. India's world-class nuclear researchers can still learn many lessons from the Fukushima nuclear crisis, particularly in fostering a culture of safety. The world's largest democracy must demonstrate to its citizens that nuclear power is safe and sustainable in order to pursue its ambitious energy program.

Rod Ewing, one of the nation’s leading experts on nuclear materials, has been named the inaugural Frank Stanton Professor in Nuclear Security at the Center for International Security and Cooperation.

Ewing has written extensively on issues related to nuclear waste management and is Chairman of the U.S. Nuclear Waste Technical Review Board. He will have a joint appointment as Professor of Geological and Environmental Sciences in the School of Earth Sciences and as a Senior Fellow at CISAC. He will begin his new position at Stanford in January.

“Given the very long and distinguished history of the Stanton Foundation’s involvement in issues of nuclear security, this appointment provides me with a unique opportunity to blend science with security policy,” Ewing said.

The endowed chair was recently established with a $5 million gift to CISAC from the Stanton Foundation to aid the center in its longstanding mission to build a safer world through rigorous policy research in nuclear security.

Former CBS president Frank Stanton established the foundation, which also funds CISAC’s Stanton Nuclear Security Fellowships for pre- and post-doctoral students and junior faculty who are studying policy-relevant issues related to nuclear security.

Ewing, currently the Edward H. Kraus Distinguished Professor in the Department of Earth & Environmental Sciences at the University of Michigan, will conduct research on nuclear security and energy and related issues relevant to international arms control policy when he arrives at Stanford.

He will teach a course at CISAC related to nuclear security issues. In his research at Stanford’s School of Earth Sciences, Ewing will focus on the response of materials to extreme environments and the demand for strategic minerals for use in the development of sustainable energy technologies.

“I am particularly interested in understanding the connections between nuclear energy, its environmental impact and proliferation of nuclear weapons,” he said “This appointment gives me the freedom to pursue teaching and research in this area across disciplinary boundaries.”

Tino Cuéllar, CISAC’s co-director and next director of its parent organization, the Freeman Spogli Institute for International Studies, said Ewing’s appointment as the inaugural Stanton chair would help CISAC and FSI remain at the forefront of global efforts to understand nuclear energy and its enormous consequences to civilization.

“How societies throughout the world handle nuclear security challenges will have a profound impact on our future, and problems involving the management and security of nuclear waste will in turn greatly affect nuclear security” Cuéllar said.

Ewing’s appointment continues a tradition at CISAC of blending faculty in the sciences and social sciences. The center’s co-founders believed political science and the natural sciences are essential components of global security.

Stanton himself became actively engaged in international security issues in 1954 when President Dwight D. Eisenhower appointed him to a committee to develop the first comprehensive plan for the nation’s survival following a nuclear attack. His connection to Stanford began as a founding member and chair of Stanford’s Center for Advanced Studies in the Behavioral Sciences in 1953 and a university trustee from 1953 to 1971.

 Read More About Ewing Here