The error source in measuring neutron fluence rate is gived.
给出了中子注量测量误差的主要来源。
A measurement method of neutron fluence distribution for intensive beam generators based on the fission tracks was described.
本文叙述了用裂变径迹法测量强中子发生器中子注量分布的方法。
The Corrections for neutron fluence attenuation, multiple scattering and finite geometry are performed by using Monte-Carlo method.
用蒙特卡罗方法对中子在样品中的注量衰减,多次散射及有限角分辨做了修正。
The precision of this method depends mainly on the counts of the fossil fission tracks and the error of the thermal neutron fluence.
方法的精确度主要取决于古径迹数的多少和热中于通量的误差。
The thermal neutron fluence subsidence factor measured is basically in conformity with the self-shield factor deduced from the report of the producer of the tube.
测量得到的热中子注量率沉降因子与根据生产厂家报告推出的自屏因子基本符合。
In the neutron radiation environment there occurs the change in C-V characteristics of the Tar-actor diodes. At the given bias the junction capacitance decreases with increase of neutron fluence.
在中子辐照环境下,变容二极管c—V特性发生变化,在给定偏置下,结电容随中子注量的增加而下降。
In the neutron radiation environment there occurs the change in C-V characteristics of the Tar-actor diodes. At the given bias the junction capacitance decreases with increase of neutron fluence.
在中子辐照环境下,变容二极管c—V特性发生变化,在给定偏置下,结电容随中子注量的增加而下降。
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