Fast neutrons at LNL Legnaro

IF 1 Q3 NUCLEAR SCIENCE & TECHNOLOGY

Journal of Neutron Research Pub Date : 2020-10-19 DOI:10.3233/jnr-200156

P. Mastinu, D. Bisello, Rogelio Alfonso Barrera, I. Porras, G. Prete, L. Silvestrin, J. Wyss

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Abstract

In this contribution we describe NEPIR, the fast-neutron irradiation facility under construction at the 70 MeV cyclotron SPES facility of the INFN laboratory of Legnaro (LNL). NEPIR will be constructed in stages, according to the available funds. The initial configuration, based on a thick Be neutron production target, will be operational in 2022; it will be used for shielding studies against fast neutrons for space applications and to investigate neutron-induced Single Event Effects (SEE) in microelectronic devices and systems. In its final configuration NEPIR will have two target systems: one will deliver a Quasi Mono-energetic Neutron (QMN) beam, of general interest, with an adjustable energy peak in the 20–70 MeV range; the second target will deliver a specialized continuous energy neutron beam for studying the effects of fast neutrons produced in cosmic ray air-showers in electronic devices and systems. We review the use of NEPIR to characterize the sensitivity of electronics, describe the neutron production targets and the facility layout. In closing we describe ways, presently under investigation, to use the 15 MV XTU Tandem of LNL to produce nearly monochromatic fast neutrons that would complement the QMN system by allowing one to probe for SEE below 20 MeV.

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LNL Legnaro的快中子

在这篇文章中，我们描述了在Legnaro (LNL)的INFN实验室的70 MeV回旋加速器SPES设施中正在建设的快中子辐照设施NEPIR。NEPIR将根据可用资金分阶段建设。初始配置基于厚Be中子生产目标，将于2022年投入使用;它将用于空间应用中对快中子的屏蔽研究，并研究微电子设备和系统中中子诱导的单事件效应(SEE)。在其最终配置中，neir将有两个目标系统:一个将提供一个准单能中子(QMN)束，具有20-70兆电子伏范围内的可调能量峰值;第二个目标将提供一个专门的连续能量中子束，用于研究电子设备和系统中宇宙射线空气阵雨中产生的快中子的影响。我们回顾了利用neir来表征电子器件的灵敏度，描述中子产生目标和设施布局。最后，我们描述了目前正在研究的方法，使用LNL的15 MV XTU串联产生近单色快中子，通过允许探测低于20 MeV的SEE来补充QMN系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Neutron Research NUCLEAR SCIENCE & TECHNOLOGY-

CiteScore

2.30

自引率

9.10%

发文量