O. Sans Planell scite author profile

O. Sans Planell

4Publications

38Citation Statements Received

91Citation Statements Given

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Affiliations

INFN Sezione di Torino, University of Turin, National Laboratory of Frascati

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The e_LiBANS facility: A new compact thermal neutron source based on a medical electron LINAC

Monti

Costa

Durisi

et al. 2020

Nuclear Instruments and Methods in Physics Research Section A:

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A new photonuclear thermal neutron facility has been developed at the Physics Department of University of Torino. The facility is based on a medical electron LINAC coupled to a compact converter and moderator assembly. A homogenous thermal neutron field of the order of 10 6 cm −2 s −1 is achievable in the enclosed irradiation cavity with low gamma and fast neutron contaminations. Its intensity can be tuned varying the LINAC current. These characteristics make the source appropriate for several applications like detectors development, material studies and BNCT preclinical research. This work describes the project and the experimental characterization of the facility. This includes the measurement of the thermal neutron fluence rate, the determination of the neutron energy spectrum and of the thermal neutron field uniformity and the evaluation of the gamma contamination.

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Study of muon pair production from positron annihilation at threshold energy

et al. 2020

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Results of the first user program on the HOmogeneous Thermal NEutron Source HOTNES (ENEA/INFN)

et al. 2017

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The HOmogeneous Thermal NEutron Source (HOTNES) is a new type of thermal neutron irradiation assembly developed by the ENEA-INFN collaboration.The facility is fully characterized in terms of neutron field and dosimetric quantities, by either computational and experimental methods. This paper reports the results of the first "HOTNES users program", carried out in 2016, and covering a variety of thermal neutron active detectors such as scintillators, solid-state, single crystal diamond and gaseous detectors.

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First results with the ANET Compact Thermal Neutron Collimator

et al. 2021

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This paper presents the first determination of the spatial resolution of the ANET Compact Neutron Collimator, obtained with a measuring campaign at the LENA Mark-II TRIGA reactor in Pavia. This novel collimator consists of a sequence of collimating and absorbing channels organised in a chessboard-like geometry. It has a scalable structure both in length and in the field of view. It is characterized by an elevated collimation power within a limited length. Its scalability and compactness are added values with respect to traditional collimating system. The prototype tested in this article is composed of 4 concatenated stages, each 100 mm long, with a channel width of 2.5 mm, delivering a nominal L/D factor of 160. This measuring campaign illustrates the use of the ANET collimator and its potential application in neutron imaging for facilities with small or medium size neutron sources.

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O. Sans Planell

The e_LiBANS facility: A new compact thermal neutron source based on a medical electron LINAC

Study of muon pair production from positron annihilation at threshold energy

Results of the first user program on the HOmogeneous Thermal NEutron Source HOTNES (ENEA/INFN)

First results with the ANET Compact Thermal Neutron Collimator

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