Neutron Flux Determination for the NEAR Station at the CERN n_TOF Facility Using the SAND II Unfolding Code

HNPS Advances in Nuclear Physics Pub Date : 2023-05-05 DOI:10.12681/hnpsanp.5185

Christoforos Frantzis, R. Vlastou, M. Kokkoris, M. Diakaki, V. Michalopoulou, S. Chasapoglou, Sotirios Alexandros Kopanos, S. Stoulos, P. Koseoglou

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Abstract

The NEAR station, a new experimental area of the n_TOF facility, was established after the second long shut down of CERN in 2020. This new area was created in order to exploit in situ the high instantaneous neutron flux (originating from proton spallation into a lead target in bunches with momenta reaching up to 20 GeV/c). The reason for the creation of the NEAR station is to utilize the neutrons for experiments related to radiation damage on materials and nuclear astrophysics and the corresponding neutron flux was characterized via extensive neutron multiple foil activation measurements. The irradiated foils were subsequently measured using high purity germanium detectors (HPGe) to determine their induced activities. Finally, the widely used SAND II unfolding code was implemented for the characterization of the neutron flux, using the evaluated cross sections from the IRDFF library, along with the experimentally derived activities. The preliminary results concerning the neutron flux determined in the present work are compared with the corresponding FLUKA simulated ones.

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用SAND II展开码测定CERN n_TOF设施近站中子通量

近站是在2020年欧洲核子研究中心第二次长期关闭后建立的一个新的n_TOF设施实验区。这个新区域的创建是为了就地利用高瞬时中子通量(源于质子散裂成一束的铅靶，动量高达20 GeV/c)。建立NEAR站的原因是利用中子进行与材料辐射损伤和核天体物理有关的实验，并通过广泛的中子多箔活化测量来表征相应的中子通量。辐照箔随后用高纯锗探测器(HPGe)测定其诱导活性。最后，使用广泛使用的SAND II展开代码，利用IRDFF库中评估的截面以及实验推导的活度，实现了中子通量的表征。本文所测中子通量的初步结果与相应的FLUKA模拟结果进行了比较。

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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HNPS Advances in Nuclear Physics

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