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新型热中子源FANT的实验特性研究

Experimental characterization of FANT, a new thermal neutron source.

作者信息

Cevallos-Robalino Lenin E, García-Fernández Gonzalo, Lorente Alfredo, Gallego Eduardo, Vega-Carrillo Hector Rene, Ibañez Sviatoslav, Guzmán-García Karen A

机构信息

Departmento de Ingeniería Energética, ETSI Industriales, Universidad Politécnica de Madrid, C. José Gutiérrez Abascal 2, 28006, Madrid, Spain; Grupo de Investigación en Sistemas de Control y Robótica, GISCOR, Universidad Politécnica Salesiana, C. Robles 107 Chambers, 090108, Guayas, Guayaquil, Ecuador.

Departmento de Ingeniería Energética, ETSI Industriales, Universidad Politécnica de Madrid, C. José Gutiérrez Abascal 2, 28006, Madrid, Spain.

出版信息

Appl Radiat Isot. 2021 Jan;167:109437. doi: 10.1016/j.apradiso.2020.109437. Epub 2020 Sep 24.

DOI:10.1016/j.apradiso.2020.109437
PMID:33007735
Abstract

FANT is the acronym of Enhanced Thermal Neutron Source (Fuente Ampliada de Neutrones Térmicos, in Spanish). This is a parallelepiped box of high-density polyethylene moderator and an isotopic neutron source. The moderator has a cylindrical irradiation chamber where a rather uniform thermal neutron flux is obtained. The FANT design was previously optimized and the neutron spectra were estimated by Monte Carlo calculations with the MCNP6.1 code. To check the characteristics of the FANT thermal neutron field, measurements have been performed at the reference point inside the irradiation chamber with a Bonner sphere spectrometer holding a small LiI(Eu) thermal neutron detector. To unfold the neutron spectrum BUNKIUT with UTA4 response matrix and NSDann Ver 4.0 codes were used. Some issues have been found and recommendations are made about the use of large BSS inside narrow spaces, and about the capacity of NSDann code to unfold these kind of spectra. However, the results confirm that the moderation process in FANT is very effective and allows obtaining useful thermal neutron fluence rates.

摘要

FANT是增强热中子源(西班牙语为Fuente Ampliada de Neutrones Térmicos)的首字母缩写。这是一个由高密度聚乙烯慢化剂和同位素中子源组成的平行六面体盒子。慢化剂有一个圆柱形辐照室,在其中可获得相当均匀的热中子通量。FANT的设计先前已进行了优化,并且通过使用MCNP6.1代码的蒙特卡罗计算来估计中子能谱。为了检验FANT热中子场的特性,使用一个装有小型碘化锂(铕)热中子探测器的邦纳球谱仪在辐照室内的参考点进行了测量。为了解开中子能谱,使用了UTA4响应矩阵和NSDann Ver 4.0代码的BUNKIUT程序。已经发现了一些问题,并就狭窄空间内大型邦纳球谱仪的使用以及NSDann代码解开这类能谱的能力提出了建议。然而,结果证实FANT中的慢化过程非常有效,并且能够获得有用的热中子注量率。

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