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Isotope separation
The Taming of “49” Big Science in Little Time
Laser Isotope Separation (LIS), Technical and Economic
Extensive Interest in Nuclear Fuel Cycle Technologies
Development of a Viable Route for Lithium-6 Supply of DEMO and Future Fusion Power Plants T
Atomic Energy Je^K L'energie Atomique of Canada Umited Ksv Du Canada Li Mite E
Lithium Isotope Separation a Review of Possible Techniques
Uranium Enrichment Plant Characteristics—A Training Manual for the IAEA
Economic Perspective for Uranium Enrichment
Nuclear Fuel Cycle Information System
R:\TEMP\Bobbi\RDD-8 3-16-04 Reprint.Wpd
Download the Nuclear Fuel Cycle Brochure
Lll Laser Program Overview
Uranium Enrichment Processes Directed Self-Study Course! This Is the Fifth of Seven Modules Available in This Self-Study Course
Some Reminiscences of Mass Spectrometry and the Manhattan Project
The Uranium Enrichment Industry and the SILEX Process
The Nuclear Fuel Cycle in Russia. State and Prospects
Department of Energy § 810.2
Developments in the Uranium Enrichment Industry
Top View
Percentage of Uranium 235 Critical Mass (Kilograms) 100 15 90 18 75 25 50 50 20 250 10 1250 5 Not Possible to Achieve a Bare Sphere Critical Mass
Manhattan Project: No Substitute for the Real Thing (Title As It Appeared in the Oak Ridger)
Worldwide Scientific Capabilities in Laser Isotope Separation, July 1977
An Overview of the Nuclear Separations Course Presentations
National Security History Series
I. Technical Realities Confronting Transition to a Nuclear-Weapon-Free World
Iranian Chemical Isotope Exchange Research: Boron, Lithium, Uranium
Environmental Detection of Clandestine Nuclear Weapon Programs
Laser Enrichment Methods (AVLIS and MLIS)
Kinetic Separation Effect in the Liquid
Based on Recent Discoveries in Science and Advances In
Lawrence Berkeley National Laboratory Lawrence Berkeley National Laboratory
Laser Isotope Separation: the Physics of the Process
The Manhattan Project
From Nuclear Energy to the Bomb: the Proliferation Potential of New Nuclear Energy Programs
Subject Area Indicators and Key Word List for Restricted Data and Formerly Restricted Data
Laser Separation of Isotopes
Multilateralization of the Nuclear Fuel Cycle: Assessing Existing Proposals
Isotope Separation of 176Lu a Precursor to 177Lu Medical Isotope Using Broadband Lasers M
Chapter 6. Enrichment Processes
Nuclear Iran a GLOSSARY
Lithium Isotope Enrichment: Feasible Domestic Enrichment Alternatives
A Technical Retrospective of the Former South African Nuclear Weapon Programme Robert E
Burning Transuranium Isotopes in Thermal and Fast Reactors
Lithium Isotope Separation Using Cation Exchange Resin and Cross-Linkage Effect on Isotope Fractionation
Closing the Fuel Cycle
A Summary of Actinide Enrichment Technologies and Capability Gaps
Highly-Enriched Actinide and Stable Isotopes for Scientific Research in Russian Federal Nuclear Center
Laser Isotope Separation a .New Class Uf Chemical Process
Recent Progress in Laser Spectroscopy of the Actinides
Subject Area Indicators, Key Word List
Laser Techniques Applied to Isotope Separation of Uranium
'Gas Centrifuge Method of Isotope Separation,' AEC 610/15
Nuclear Weapons Material