Add to ORKGThe isotopic composition of plutonium and uranium is needed for purposes of sample confirmation, or for interpreting results from calorimeters or neutron-coincidence measurement instruments to determine nuclear material mass. The authors have developed measurement methods and computer codes utilizing high-resolution gamma-ray spectrometry to measure the relative isotopic abundances of plutonium and uranium in various forms nondestructively. The computer codes, known as MGA and MGAU, have unique analysis methodologies that the authors briefly describe in this paper
We describe the new capability of and.present measurement results from the PC/FRAM plutonium isotopi...
This report describes the development history and characteristics of software developed in the Safeg...
This report describes a computer-based gamma spectrometer system that was developed for measuring is...
We discuss the general approach, computerized data analysis methods, and results of measurements use...
Measurement of various U and Pu samples by gamma-ray spectrometry were performed at the Institute of...
The Lawrence Livermore National Laboratory develops sophisticated gamma-ray analysis codes for the i...
The nondestructive assay of plutonium is important as a safeguard tool in accounting for stategic nu...
International audienceSince 1998 CEA and COGEMA have been collaborating on new tools for isotope ana...
A measurement control (MC) program should be an integral part of every nondestructive assay measurem...
The Gamma-Ray multi-group analysis code MGA developed at Lawrence Livermore National Laboratory has ...
MGAU and FRAM are software codes which can be used for determining uranium isotopic composition by g...
International audienceThis paper presents the progress of an ongoing study within Working Group N°27...
The study deals with testing of versions 4.0 and 4.2 of the Multi-Group Analysis for Uranium (MGAU) ...
A plutonium gamma-ray analysis system that operates on MS-DOS-based computers has been developed for...
The Multi-Group Analysis (MGA) code is widely used to determine nondestructively the relative isotop...
We describe the new capability of and.present measurement results from the PC/FRAM plutonium isotopi...
This report describes the development history and characteristics of software developed in the Safeg...
This report describes a computer-based gamma spectrometer system that was developed for measuring is...
We discuss the general approach, computerized data analysis methods, and results of measurements use...
Measurement of various U and Pu samples by gamma-ray spectrometry were performed at the Institute of...
The Lawrence Livermore National Laboratory develops sophisticated gamma-ray analysis codes for the i...
The nondestructive assay of plutonium is important as a safeguard tool in accounting for stategic nu...
International audienceSince 1998 CEA and COGEMA have been collaborating on new tools for isotope ana...
A measurement control (MC) program should be an integral part of every nondestructive assay measurem...
The Gamma-Ray multi-group analysis code MGA developed at Lawrence Livermore National Laboratory has ...
MGAU and FRAM are software codes which can be used for determining uranium isotopic composition by g...
International audienceThis paper presents the progress of an ongoing study within Working Group N°27...
The study deals with testing of versions 4.0 and 4.2 of the Multi-Group Analysis for Uranium (MGAU) ...
A plutonium gamma-ray analysis system that operates on MS-DOS-based computers has been developed for...
The Multi-Group Analysis (MGA) code is widely used to determine nondestructively the relative isotop...
We describe the new capability of and.present measurement results from the PC/FRAM plutonium isotopi...
This report describes the development history and characteristics of software developed in the Safeg...
This report describes a computer-based gamma spectrometer system that was developed for measuring is...