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CNS Staff List
Listings of all CNS staff with areas of expertise, contact information, biographies, and recent publications.
Updated: Apr 16, 2013
Dr. Ferenc Dalnoki-Veress
Dr. Ferenc Dalnoki-Veress is Scientist-in-Residence at CNS and holds an MSc and PhD in high energy physics from Carleton University, Canada, specializing in ultra-low radioactivity background detectors and has professional experience in the field of astroparticle physics, primarily neutrino physics.
He has been involved in several major discoveries in the field of neutrino physics and has worked on several international collaborations in Canada, Germany, Italy, and the United States (see below).
He has contributed to more than 40 articles in refereed and non-refereed journals.
Science in the Public Interest
After a rewarding career as an experimental physicist (see below) in academia, he has switched fields to physics in the public service. After a postdoctoral position at Princeton University's Physics Department in 2008, he became a Professional Specialist at the Princeton Program on Science and Global Security (Woodrow Wilson School of International and Public Affairs) working on the development of simulations of novel detection schemes for checking the declared HEU inventories of naval-reactor cores.
He joined CNS in 2009, and has been focusing on the proliferation of fissile materials, nuclear spent fuel management, nuclear reactor safety, emergency preparedness and verification of nuclear disarmament.
Dr. Dalnoki-Veress is a principal investigator (PI) of several projects and has taken a leadership role in one of the 4 projects of the Center for Disease Control's PERRC (Preparedness and Emergency Response Research Center) in collaboration with the UC Berkeley Center for Infectious Disease & Emergency Readiness (CIDER).
His recent work analyzing radionuclide data from the Fukushima crisis has been quoted in Nature Magazine, New Scientist, Time Magazine, and newspapers. He has contributed to a Q&A in Time Magazine's Ecocentric blog on the hazards of spent nuclear fuel safety and security.
Dr. Dalnoki-Veress recognizes that knowledge of science is crucial for understanding weapons of mass destruction and the security threats they pose. He has spearheaded several initiatives to promote science education at MIIS including a course entitled "Science and Technology for Weapons of Mass Destruction," a requirement for all incoming nonproliferation and terrorism students.
In conjunction with Dr. Jim Williams from the International Environmental Policy (IEP) department and Dr. Patricia Lewis, he helped establish a science boot camp course taught by Mark Bishop ("Atoms First" textbook) which will prepare students for science related courses at MIIS. In addition, the unique IEP-CNS partnership has launched a cross-program seminar in the fall semester 2011 entitled "After Copenhagen and Fukushima: The Nuclear Future in a Climate and Security Constrained World".
Dr. Dalnoki-Veress also teaches/co-teaches several courses where science meets policy, such as "Nuclear Renaissance and Nonproliferation", "Nuclear Treaty Verification," and the workshop "Nuclear Weapons and Technology".
Ultra-Low Background and Neutrino Physics
During the tenure of Dr. Dalnoki-Veress's research career, he has been involved in several major discoveries in the field of neutrino physics. Neutrino physics is the study of indivisible particles that have significant roles in understanding stellar (star) energy production, the nature of matter, and cosmology.
In 2002 his work in Canada at the Sudbury Solar Neutrino Observatory (SNO) contributed to the first definitive proof that neutrinos have finite mass. The SNO result was ranked as the top three scientific breakthroughs of 2002 for Science Magazine, Discover Magazine, and the American Institute of Physics.
From 2003 until 2005 he worked at the Max Planck Institute for Nuclear Physics in Heidelberg, Germany to investigate further low background techniques in collaboration with participants from the Space Science Division, E. O. Hulbert Center for Space Science of the United States Naval Research Laboratory. He was a member of the Double Chooz project, an international collaboration to measure anti-neutrinos produced by fission in nuclear reactors.
In 2005 he joined Princeton University to work at the Gran Sasso National Laboratory near L'Aquila, Italy on the Borexino solar neutrino experiment. His efforts contributed to the first real-time measurement of low energy solar neutrinos heralded in 2007 by Nature magazine as a "triumph for experimenters". Note that techniques developed in the interests of neutrino and low background physics rely on measuring extremely rare signals just as often the case in the fields of nuclear forensics, nuclear archaeology, nuclear safeguards monitoring and the detection of radioactive gases from nuclear tests.
Letter to Prospective Students
If you have recently graduated with a science/engineering/mathematics degree and you are interested in the MIIS MA in Nonproliferation and Terrorism Studies, do not feel that you have to leave behind all that wonderful science you have learned.
We have many interesting research projects at the Center for Nonproliferation Studies that have a science slant. For example, our students have contributed to important research on: quantitative methods to predict nuclear proliferation probabilities; technical aspects of spent fuel management; emergency preparedness for the use of chemical and radiological weapons; calculating the self-protective dose from spent fuel assemblies; and a host of other fascinating problems.
However, if you feel that you are not so scientifically confident, do not let that discourage you from working on a technical project. Most of the students currently working with us at CNS do not have a strong science background and are making valuable contributions to our research.
If you have any questions, please do not hesitate contact me at email@example.com.
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