Application of the EGS4 Monte Carlo Code to a Study of Multilayer Gamma-Ray Exposure Buildup Factors of up to 40 mfp
スポンサーリンク
概要
- 論文の詳細を見る
Multilayer γ-ray exposure buildup factors of up to 40mfp were calculated using an electron-photon cascade Monte Carlo code, EGS4, as a point isotropic source. A kind of splitting technique was used in the EGS4 calculations in order to obtain reasonable results at very deep penetration problems, such as 40mfp.<BR>The double-layer γ-ray exposure buildup factors were calculated for combinations of water, iron and lead for 0.1, 0.3, 0.6, 1.0, 3.0, 6.0 and 10 MeV γ-rays. The thickness of the first medium was set to 1, 5, 10 or 20mfp. As typical triple-layered shields, the calculations were performed for 4 different configurations of water, iron and lead.<BR>The behavior of multilayer buildup factors for deep penetration problems was studied using the obtained results. Buildup factors after the bounday show the tendency to vary largely depending on the material combination and the source energy of γ-rays.
- 社団法人 日本原子力学会の論文
- 1998-11-25
著者
-
SHIN Kazuo
Department of Nuclear Engineering, Kyoto University
-
Shin K
Kyoto Univ.
-
Shin Kazuo
Department Of Applied Chemistry Osaka Prefecture University
-
Hirayama Hideo
High Energy Accelerator Research Organization
関連論文
- Simultaneous Measurement of Prompt Neutrons and Fission Fragments for ^Pu(n_, f)
- Analysis of Neutron Spectra from Thick Targets Bombarded with 710-MeV Alpha Particles by Quantum Molecular Dynamics plus Statistical Decay Model
- Application of the EGS4 Monte Carlo Code to a Study of Multilayer Gamma-Ray Exposure Buildup Factors of up to 40 mfp
- Photocrosslinking System Using Highly-Functionalized Epoxy Crosslinkers Having Degradable Property
- Description of Multilayered Gamma-Ray Exposure Buildup Factors up to 40 mfp by the Approximating Model
- Simulation of the Carrier Trapping Effect in a Schottky CdTe Detector by Considering a Nonuniform Electric Field
- Validity of the Four-Parameter Empirical Formula in Approximating the Response Functions for Gamma-ray, Neutron, and Secondary Gamma-ray Skyshine Analyses
- Calculation of Gamma-Ray Buildup Factors up to Depths of 100 mfp by the Method of Invariant Embedding, (II) : Improved Treatment of Bremsstrahlung
- Comparison of Line Beam Response Function for Gamma-ray Skyshine Analysis Based on Single Scattering Method with the Monte Carlo Calculations
- Validity of the Four-Parameter Empirical Formula in Approximating the Response Functions for Gamma-ray, Neutron, and Secondary Gamma-ray Skyshine Analyses
- Calculation of Gamma-Ray Buildup Factors up to Depths of 100 mfp by the Method of Invariant Embedding, (II) : Improved Treatment of Bremsstrahlung
- Calculation of response function of NE-213 organic liquid scintillator for gamma-rays.
- Fast neutron spectra transmitted through iron and sodium slabs.
- Backscattering of neutrons and secondary gamma-rays from aluminum and lead slabs for 15-MeV neutrons.
- Albedo analytical method for multi-scattered neutron flux calculation in cavity.