Top View
- Separation of Actinides and Long-Lived Fission Products from ·High-Level Radioactive Wastes (A Review)
- Radioisotope Power Systems for Space Applications
- Press Release
- Can the SPECT Nuclear Imaging Modality Be Sustained?
- Major Uses of Radioisotopes
- Americium, Neptunium, Plutonium, Thorium, Curium, Uranium, and Strontium in Water
- NUCLEAR HEAT SOURCE CONSIDERATIONS for an ICY MOON EXPLORATION SUBSURFACE PROBE Daniel P. Kramer1, Christofer E. Whiting 1, Chad
- Status Report on Actinide and Fission Product Transmutation Studies
- Separation of Americium and Curium Fram Highly Radioactive Waste Solutions Part 1.: Laboratory Batch Studies
- Nnl-Medical-Isotopes.Pdf
- Issue 16 ~ Administrative Register Contents ~ April 20, 2018 Information
- Abnormal Occurrence Print
- Feature Article
- Note: This Is a Courtesy Copy of This Rule Proposal. the Official Version Will Be Published in the October 19, 2015 New Jersey Register
- Curium What Is It? Curium Is a Hard, Brittle, Silvery Metal That Tarnishes Slowly in Symbol: Cm Dry Air at Room Temperature
- Table of Contents
- Newsletter 2018 Summer Edition Old Dalkeith Road, Edinburgh, EH16 4SA Publication Date: Phone: 0131 242 2929; Fax: 0131 242 2931 Email: [email protected]
- Determination of Plutonium, Uranium and Americium/Curium Isotopes in Environmental Samples with Anion Exchange, UTEVA, Sr and DGA Resin
- Progress in Californium-252 Neutron Brachytherapy
- U.K.Radiopharmacy Roup
- THE ISOLATION of AMERICIUM and CURIUM from IRRADIATED 241 AM TARGETS by W
- French R&D on the Partitioning and Transmutation of Long-Lived
- 1 Transmutation of Americium and Curium: Review Of
- The Receipt, Possession, Use, and Transfer of This Device, Model
- DOE Isotope Program R&D and Production of Isotopes for Space
- 36Th Annual Radioactive Waste Management Symposium 2010
- R&D and Innovation Needs for Decommissioning of Nuclear
- Losallaiimmlmsalamos,New Mexico 87545 ~
- Radiopharmacy: an Update
- The Fission Properties of Curium Separated from Spent Nuclear Fuel
- A Roadmap for Replacing High-Risk Radioactive Sources and Materials
- Material Safety Data Sheet
- Production of Actinide Isotopes in Simulated PWR Fuel and Their Influence on Inherent Neutron Emission
- The Use of Curium Neutrons to Verify Plutonium in Spent Fuel and Reprocessing Wastes
- Constraints on the Role of Curium-247 As a Possible Source of Fission Xenon in the Early Solar System
- Isotopes of Curium
- Advanced Safeguards Approaches for New Reprocessing Facilities
- Assessment of the Radiotoxicity of Spent Nuclear Fuel from a Fleet of PWR Reactors
- Plutonium Separation in Nuclear Power Programs Status, Problems, and Prospects of Civilian Reprocessing Around the World
- A Comparison of Curium, Neptunium and Americium Transmutation Feasibility Timothée Kooyman, Laurent Buiron, G
- C3939 Peter Tamony Collection
- Nuclear Separations Technologies Workshop Report 2011
- Curium in Space
- Florida Regulations 64E-5 Rules with No Comments
- TRENDS in RADIOPHARMACEUTICALS (ISTR-2019) the Following States Are Members of the International Atomic Energy Agency
- Advisory Committee on the Medical
- NNL Publications
- Brief Overview of the Long-Lived Radionuclide Separation Processes Developed in France in Connection with the Spin Program