Reconsideration of the Theoretical Supplementation of Decay Data in Fission Product Decay Heat Summation Calculations
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概要
- 論文の詳細を見る
In the early stage of the development of the fission product (FP) decay data library for decay-heat summation calculations a serious disagreement between calculations and sample-irradiation measurements was experienced world wide. This problem was essentially circumvented by introduction of the nuclear model calculations. By applying the recent results using the total absorption gamma-ray spectrometer to the decay heat calculations we found that TAGS results seem to be free from the pandemonium problem and, in this respect, it provides a solid basis of the summation calculations without the supplementation of the nuclear model calculations. Among the typical FP nuclides which deserve the future TAGS experiment there are 98Nb, 100Nb, 105Mo and 102Tc and others from the present survey.
- 社団法人 日本原子力学会の論文
- 2006-05-25
著者
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HAGURA Naoto
Tokyo City University
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TACHIBANA Takahiro
Senior High School of Waseda University
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YOSHIDA Tadashi
Tokyo City University
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YOSHIDA Tadashi
Musashi Institute of Technology
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HAGURA Naoto
Musashi Institute of Technology
関連論文
- Reconsideration of the Theoretical Supplementation of Decay Data in Fission Product Decay Heat Summation Calculations (II)
- Japanese Evaluated Nuclear Data Library Version 3 Revision-3 : JENDL-3.3
- Nuclidic Mass Formula on a Spherical Basis with an Improved Even-Odd Term(Nuclear Physics)
- Simultaneous Evaluation of Fission Cross Sections of Uranium and Platonium Isotopes for JENDL-3.3
- Reconsideration of the Theoretical Supplementation of Decay Data in Fission Product Decay Heat Summation Calculations
- Measurement of Electric-Dipole Moment by Polarization Laser Spectroscopy
- Measurement of Dipole-Moment in Atomic Transitions under Strong External Magnetic Field
- Estimation of Beta- and Gamma-Ray Spectra for JENDL FP Decay Data File
- Possible Origin of the Gamma-ray Discrepancy in the Summation Calculations of Fission Product Decay Heat
- Nuclidic Mass Formula on a Spherical Basis with an Improved Even-Odd Term(Nuclear Physics)