Fast neutrons at LNL Legnaro-Reference-Cited by-同舟云学术

Fast neutrons at LNL Legnaro

Published:2020-10-19 Issue: Volume: Page:1-15
ISSN:1477-2655
Container-title:Journal of Neutron Research
language:
Short-container-title:JNR

Author:

Mastinu Pierfrancesco¹,Bisello Dario²,Barrera Rogelio Alfonso¹,Porras Ignacio³,Prete Gianfranco¹,Silvestrin Luca⁴,Wyss Jeffery²⁵

Affiliation:

1. INFN Laboratori Nazionali di Legnaro, vale dell’Università 2, I-35020 Legnaro (Padua), Italy. E-mails: mastinu@lnl.infn.it, rogelio.alfonso@lnl.infn.it, prete@lnl.infn.it

2. INFN Padova, via Marzolo 8, I-35131 Padova, Italy. E-mails: bisello@pd.infn.it, wyss@pd.infn.it

3. Department of Nuclear, Atomic and Molecular Physics, University of Granada, Spain. E-mail: porras@ugr.es

4. Department of Physics and Astronomy, University of Padova, Italy. E-mail: luca.silvestrin@unipd.it

5. Department of Civil and Mechanical Engineering, University of Cassino and Southern Lazio, Italy. E-mail: wyss@unicas.it

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.

Publisher

IOS Press

Subject

Nuclear Energy and Engineering,Nuclear and High Energy Physics

Reference20 articles.

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