A zero-knowledge protocol for nuclear warhead verification A Glaser, B Barak, RJ Goldston Nature 510 (7506), 497-502, 2014 | 102 | 2014 |
Characteristics of the gas centrifuge for uranium enrichment and their relevance for nuclear weapon proliferation A Glaser Science & Global Security 16 (1-2), 1-25, 2008 | 100 | 2008 |
From Brokdorf to Fukushima: The long journey to nuclear phase-out A Glaser Bulletin of the Atomic Scientists 68 (6), 10-21, 2012 | 94 | 2012 |
Licensing small modular reactors MV Ramana, LB Hopkins, A Glaser Energy 61, 555-564, 2013 | 92 | 2013 |
Unmaking the Bomb: A Fissile Material Approach to Nuclear Disarmament and Nonproliferation HA Feiveson, A Glaser, Z Mian, FN Von Hippel MIT Press, 2014 | 77* | 2014 |
Balancing risk: nuclear energy & climate change RH Socolow, A Glaser Daedalus 138 (4), 31-44, 2009 | 74 | 2009 |
Princeton Plasma Physics Laboratory DM Meade PO Box 451, 0 | 63* | |
On the proliferation potential of uranium fuel for research reactors at various enrichment levels A Glaser Science & Global Security 14 (1), 1-24, 2006 | 62 | 2006 |
Weapon-grade plutonium production potential in the Indian prototype fast breeder reactor A Glaser, MV Ramana Science & global security 15 (2), 85-105, 2007 | 61 | 2007 |
The gas centrifuge and nuclear weapons proliferation HG Wood, A Glaser, RS Kemp Physics Today 61 (9), 40-45, 2008 | 52 | 2008 |
Nuclear warhead verification: A review of attribute and template systems J Yan, A Glaser Science & Global Security 23 (3), 157-170, 2015 | 50 | 2015 |
Nuclear forensics: role, state of the art, and program needs M May, R Abedin-Zadeh, D Barr, A Carnesale, PE Coyle, J Davis, ... American Association for the Advancement of Science and the American …, 2008 | 50 | 2008 |
About the enrichment limit for research reactor conversion: Why 20%? A Glaser International Meeting on Reduced Enrichment for Research and Test Reactors …, 2005 | 49 | 2005 |
A physical zero-knowledge object-comparison system for nuclear warhead verification S Philippe, RJ Goldston, A Glaser, F d’Errico Nature communications 7 (1), 12890, 2016 | 40 | 2016 |
Resource requirements and proliferation risks associated with small modular reactors A Glaser, LB Hopkins, MV Ramana Nuclear Technology 184 (1), 121-129, 2013 | 34 | 2013 |
Proliferation risks of magnetic fusion energy: clandestine production, covert production and breakout A Glaser, RJ Goldston Nuclear Fusion 52 (4), 043004, 2012 | 33 | 2012 |
After Fukushima: preparing for a more uncertain future of nuclear power A Glaser The Electricity Journal 24 (6), 27-35, 2011 | 32 | 2011 |
Neutronics calculations for denatured molten salt reactors: Assessing resource requirements and proliferation-risk attributes A Ahmad, EB McClamrock, A Glaser Annals of Nuclear Energy 75, 261-267, 2015 | 27 | 2015 |
Reducing the use of highly enriched uranium in civilian research reactors National Academies of Sciences, Division on Earth, Life Studies, ... National Academies Press, 2016 | 26 | 2016 |
Can future nuclear power be made proliferation resistant? H Feiveson Center for International & Security Studies, U. Maryland, 2008 | 23 | 2008 |