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Hecker & Milani: Stop killing Iranian nuclear scientists

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CISAC's Siegfried Hecker and Abbas Milani note in this article for the Bulletin of Atomic Scientists that for merely working in their field of expertise, Iranian nuclear scientists face perils and pressures that are nothing less than Shakespearean. The question for them is, in a very real sense, "To be or not to be." In the course of the last four decades, these scientists have faced intimidation and severe punishment, including prison terms, at the hands of their own government. In recent years, at least five Iranian nuclear scientists have been the target of assassination attempts often attributed to Israeli intelligence. Regardless of their source, all such threats against scientists are morally indefensible. They offend the scientific spirit, working against the free exchange of ideas that is necessary for humanity to advance. The authors assert, these threats against scientists in Iran undermine global peace, targeting experts whose international collaboration is required to deal effectively with the nuclear risks facing the world today. Simply put, killing nuclear scientists makes reducing the threat of nuclear war harder, not easier.

 

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Commentary
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Bulletin of the Atomic Scientists
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Siegfried S. Hecker
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Radioactive waste disposal in European clay formations: science, safety and society

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About the Topic: Large scientific and technological advances in many European countries and the establishment of the European technology platform IGD-TP have increased our understanding of how to construct, exploit, and close a future geological repository and how to reduce uncertainties in demonstrating its long term safety.  Essentially all major safety analyses have demonstrated that the risk of disposal will be of little consequence. Particularly durable confinement is assured in clay formations as is foreseen for disposal in France, Switzerland and Belgium, but strong confinement can also be realized in more water permeable granite formation by very effective engineered barrier system like those foreseen in Sweden and Finland. Still, there is not yet an operating geologic repository for highly radioactive waste worldwide. The first geological European repositories are expected to accept spent fuel, high-level waste in 2025. Yet there remains substantial public concern.  

Professor Grambow will lay out the current state of the art safety case, focusing mainly on the scientific programs, the ongoing planning of repository construction and the public debate in France, a country with one of the largest nuclear energy programs worldwide.  

About the Speaker: Bernd Grambow is a Professor of excellence at the Ecole des Mines de Nantes, France. He graduated at the Frei Universität Berlin, worked for one year at the Pacific Northwest National Laboratory (Washington State), followed by research positions in Hahn Meitner Institute Berlin and Forschungszentrum Karlsruhe. He currently holds the Chair on nuclear waste disposal in Nantes and is head of the Subatech laboratory on high energy nuclear physics and radiochemistry, a mixed research unit between the CNRS-IN2P3, the Ecole des Mines of Nantes and the University of Nantes. Coordinator of various European projects and former director of the national CNRS-academic/industrial research network NEEDS “nuclear: environment, energy, waste, society”, his areas of scientific expertise are radiochemistry, nuclear waste disposal science, geochemical modeling, radionuclide migration in the environment, chemical thermodynamics, and dynamics of solid/liquid interfaces. He has published 143 peer-reviewed research papers. In 2008 he received the Grand Prix Ivan Pechès of the French Academie of Science and in 2014 he became Chevalier of the Ordre des Palmes Académiques. 

 

 

 

Radioactive waste disposal in European clay formations: science, safety and society
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Nuclear waste disposal: I. Laboratory simulation of repository properties
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Geological disposal of nuclear waste: II. From laboratory data to the safety analysis – Addressing societal concerns
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Encina Hall (2nd Floor)

Bernd Grambow Professor at Ecole des Mines de Nantes, France, Chair on Nuclear Waste Management and Director of SUBATECH laboratory Speaker

Rodney C. Ewing

CISAC
Stanford University
Encina Hall, E203
Stanford, CA 94305-6165

(650) 725-8641
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1946-2024
Senior Fellow at the Freeman Spogli Institute for International Studies
Frank Stanton Professor in Nuclear Security
Professor of Geological Sciences
rodewingheadshot2014.jpg MS, PhD

      Rod Ewing was the Frank Stanton Professor in Nuclear Security and Co-Director of the Center for International Security and Cooperation in the Freeman Spogli Institute for International Studies and a Professor in the Department of Geological Sciences in the School of Earth, Energy and Environmental Sciences at Stanford University. He was also the Edward H. Kraus Distinguished University Professor Emeritus at the University of Michigan, where he had faculty appointments in the Departments of Earth & Environmental Sciences, Nuclear Engineering & Radiological Sciences and Materials Science & Engineering.  He was a Regents' Professor Emeritus at the University of New Mexico, where he was a member of the faculty from 1974 to 1997. Ewing received a B.S. degree in geology from Texas Christian University (1968, summa cum laude) and M.S. (l972) and Ph.D. (l974, with distinction) degrees from Stanford University where he held an NSF Fellowship.    His graduate studies focused on an esoteric group of minerals, metamict Nb-Ta-Ti oxides, which are unusual because they have become amorphous due to radiation damage caused by the presence of radioactive elements. Over the past thirty years, the early study of these unusual minerals has blossomed into a broadly-based research program on radiation effects in complex ceramic materials.  In 2001, the work on radiation-resistant ceramics was recognized by the DOE, Office of Science – Decades of Discovery as one of the top 101 innovations during the previous 25 years. This has led to the development of techniques to predict the long-term behavior of materials, such as those used in radioactive waste disposal.

      He was the author or co-author of over 750 research publications and the editor or co-editor of 18 monographs, proceedings volumes or special issues of journals. He had published widely in mineralogy, geochemistry, materials science, nuclear materials, physics and chemistry in over 100 different ISI journals. He was granted a patent for the development of a highly durable material for the immobilization of excess weapons plutonium.  He was a Founding Editor of the magazine, Elements, which is now supported by 17 earth science societies. He was a Principal Editor for Nano LIFE, an interdisciplinary journal focused on collaboration between physical and medical scientists. In 2014, he was named a Founding Executive Editor of Geochemical Perspective Letters and appointed to the Editorial Advisory Board of Applied Physics Reviews.

      Ewing had received the Hawley Medal of the Mineralogical Association of Canada in 1997 and 2002, a Guggenheim Fellowship in 2002, the Dana Medal of the Mineralogical Society of America in 2006, the Lomonosov Gold Medal of the Russian Academy of Sciences in 2006, a Honorary Doctorate from the Université Pierre et Marie Curie in 2007, the Roebling Medal of the Mineralogical Society of America in 2015, Ian Campbell Medal of the American Geoscience Institute, 2015, the Medal of Excellence in Mineralogical Sciences from the International Mineralogical Association in 2015, the Distinguished Public Service Medal of the Mineralogical Society of America in 2019, and was a foreign Fellow of the Royal Society of Canada. He was also a fellow of the Geological Society of America, Mineralogical Society of America, Mineralogical Society of Great Britain and Ireland, American Geophysical Union, Geochemical Society, American Ceramic Society, the American Association for the Advancement of Science and the Materials Research Society. He was elected a Fellow of the National Academy of Engineering in 2017.

      He was president of the Mineralogical Society of America (2002) and the International Union of Materials Research Societies (1997-1998). He was the President of the American Geoscience Institute (2018). Ewing had served on the Board of Directors of the Geochemical Society, the Board of Governors of the Gemological Institute of America and the Science and Security Board of the Bulletin of the Atomic Scientists.

      He was co-editor of and a contributing author of Radioactive Waste Forms for the Future (North-Holland Physics, Amsterdam, 1988) and Uncertainty Underground – Yucca Mountain and the Nation’s High-Level Nuclear Waste (MIT Press, 2006).  Professor Ewing had served on thirteen National Research Council committees and board for the National Academy of Sciences, Engineering and Medicine that have reviewed issues related to nuclear waste and nuclear weapons. In 2012, he was appointed by President Obama to serve as the Chair of the Nuclear Waste Technical Review Board, which is responsible for ongoing and integrated technical review of DOE activities related to transporting, packaging, storing and disposing of spent nuclear fuel and high-level radioactive waste; he stepped down from the Board in 2017.

https://profiles.stanford.edu/rodney-ewing

Co-director of the Center for International Security and Cooperation
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Senior Fellow at FSI; Frank Stanton Professor in Nuclear Security Chair Stanford University
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For the People

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CISAC's Siegfried Hecker and Abbas Milani, founding co-director of the Iran Democracy Project here at Stanford, write in this Bulletin of the Atomic Scientists analysis that Iran must move beyond false nationalism and the misguided notion that uranium enrichment is the sine qua non of peaceful nuclear energy. At the same time, Iran’s negotiating partners must be more sensitive to the proud history of the Iranian nation.

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Bulletin of the Atomic Scientists
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Siegfried S. Hecker
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Iran's Path to Nuclear Peace

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CISAC and FSI Senior Fellows Siegfried Hecker and Bill Perry write in this OpEd in The New York Times that Iran has little to show for its 50-year pursuit of a nuclear program. They argue Iran should forego the bomb and concentrate on learning how to build nuclear power plants that would aid their country's economy and promote international cooperation.

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The New York Times
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Siegfried S. Hecker

Stanford-SPF New Channels Dialogue 2014

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Stanford-Sasakawa Peace Foundation New Channels Dialogue 2014

Energy Challenge and Opportunities for the United States and Japan

 

February 13, 2014

Bechtel Conference Center, Encina Hall, Stanford University

Sponsored and Organized by Sasakawa Peace Foundation (SPF) and Shorenstein Asia-Pacific Research Center (S-APARC) in Association with U.S.-Japan Council

 

Japan Studies Program at Shorenstein APARC, Stanford University has launched a three-year project from 2013 to create new channels of dialogue between experts and leaders of younger generations from the United States, mostly from the West Coast, and Japan under a name of "New Channels: Reinvigorating U.S.-Japan Relations," with the goal of reinvigorating the bilateral relationship through the dialogue on 21st century challenges faced by both nations, with a grant received from the Sasakawa Peace Foundation.

The dialogue would be structured to examine the new challenges of the 21st century, in particular, economic growth and employment creation; innovation and entrepreneurship; energy; and East Asian regionalism, including regional security issues, with the aim of developing mutual understanding and constructing a new relationship for cooperation in dealing with 21st century challenges through the dialogue between scholars, entrepreneurs, and policy makers from the two countries. We are hoping that this multi-year initiative will generate a network of trans-Pacific expertise as a vital supplement to existing avenue of communications.

Given the recent dramatic changes in energy environments in both countries, such as shale gas developments in the U.S, and after Fukushima challenges in Japan, this year, as an inaugural year, we will be examining energy issues. Panel discussions open to the public, with the title of "Energy Challenges and Opportunities for the U.S. and Japan," will be held on February 13th, followed by a dialogue among invited participants on 14th, at Stanford University with the participation of policy makers, business leaders, scholars, and experts from both countries.

In the panel discussions we will examine following issues:

  1. Discovery of shale gas deposits in various parts of the world has drastically changed the geopolitics of energy.
  2. New technologies for energy production have been creating various challenges to the existing system of energy supply.
  3. As emerging economies grow rapidly, they will demand increasing amount of energy. They face a challenge of creating a sustainable and secure energy supply system.
  4. After the Fukushima Daiichi nuclear disaster, the call for enhancing safety of nuclear power plants has intensified. While public’s trust in nuclear technology wanes, increasing number of nuclear power plants are built in emerging countries. Nuclear energy policy has become politically contentious.
  5. Use of information technology, such as smart grid, is likely to change the ways energy is supplied and distributed.
  6. The world has not found an effective international framework for slowing the global warming and securing reliable energy supply to support economic growth.

We are very pleased that we were able to invite quite impressive participants, policy makers, business leaders, scholars and experts from the two countries, who would appear as panelists in the panel discussions on February 13th.

We expect that through this panel discussion we would be able to define the challenges we are facing, indicate the pathways we should proceed to, and identify the areas for cooperation.

On the following day, February 14th, we will have the dialogue closed to the public discussing issues and possible cooperation between the U.S. and Japan on energy among invited participants.

We hope to publish a summary of conference presentations and the dialogue discussion after the conference.

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Bechtel Conference Center

Conferences

China's Nuclear Energy Program - Development and Prospects

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About the Topic: This presentation includes a review of significant trends in the development of nuclear energy in China, from the mid1980's until the present, and related future prospects. Among the subjects covered will be: nuclear technology development based on competition/cooperation between a giant state owned enterprise and an upstart commercial utility from the south; different development goals and technology development by the two corporations; the impact of Fukushima on nuclear energy developments in China; the current status of the Chinese nuclear energy system; future growth prospects considering a range of different challenges in the industry; and nuclear technology development prospects and intellectual property issues.

About the Speaker: Chaim Braun is a consulting professor at CISAC specializing in issues related to nuclear power economics and fuel supply, and nuclear nonproliferation. Braun pioneered the concept of proliferation rings dealing with the implications of the A.Q. Khan nuclear technology smuggling ring, the concept of the Energy Security Initiative (ESI), and the re-evaluation of nuclear fuel supply assurance measures, including nuclear fuel lease and take-back. Before joining CISAC, Braun worked as a member of Bechtel Power Corporation's Nuclear Management Group, and led studies on power plant performance and economics used to support maintenance services. Prior to that, Braun worked at United Engineers and Constructors (UE&C), EPRI and Brookhaven National Laboratory (BNL).

CISAC Conference Room

Chaim Braun Consulting Professor, CISAC Speaker
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