Neutron background measurements with a hybrid neutron detector at the Kuo-Sheng Reactor Neutrino Laboratory

A. Sonay, M. Deniz, H. T. Wong, M. Agartioglu, G. Asryan, J. H. Chen, S. Kerman, H. B. Li, J. Li, F. K. Lin, S. T. Lin, B. Sevda, V. Sharma, L. Singh, M. K. Singh, M. K. Singh, V. Singh, A. K. Soma, S. W. Yang, Q. Yue, I. O. Yıldırım, and M. Zeyrek (TEXONO Collaboration)

Phys. Rev. C 98, 024602 – Published 2 August 2018

Abstract

We report in situ neutron background measurements at the Kuo-Sheng Reactor Neutrino Laboratory (KSNL) by a hybrid neutron detector (HND) with a data size of 33.8 days under shielding configurations identical to those used during the neutrino physics data taking. The HND consists of BC-501A liquid and BC-702 phosphor powder scintillation neutron detectors, which are sensitive to both fast and thermal neutrons, respectively. Neutron-induced events for the two channels are identified and differentiated by pulse shape analysis, such that the backgrounds of both are simultaneously measured. The fast neutron fluxes are derived by an iterative unfolding algorithm. Neutron-induced backgrounds in the germanium detector under the same fluxes, due to both cosmic rays and ambient radioactivity, are derived and compared with the measurements. The results are valuable to background understanding of the neutrino data at the KSNL. In particular, neutron-induced background events due to ambient radioactivity as well as from reactor operation are negligible compared to intrinsic cosmogenic activity and ambient $γ$ activity. The detector concept and analysis procedures are applicable to neutron background characterization in similar rare-event experiments.

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Received 28 March 2018

DOI:https://doi.org/10.1103/PhysRevC.98.024602

Physics Subject Headings (PhySH)

Neutron physics Nuclear reactions Nuclear structure & decays Particle interactions

Spectrometers & spectroscopic techniques

Nuclear PhysicsParticles & Fields

Authors & Affiliations

A. Sonay^1,2, M. Deniz^1,2,*, H. T. Wong^2,*, M. Agartioglu^1,2, G. Asryan², J. H. Chen², S. Kerman^1,2, H. B. Li², J. Li³, F. K. Lin², S. T. Lin^2,4, B. Sevda^1,2, V. Sharma^2,5, L. Singh^2,5, M. K. Singh^2,5, M. K. Singh^2,5, V. Singh⁵, A. K. Soma^2,5, S. W. Yang², Q. Yue⁶, I. O. Yıldırım⁷, and M. Zeyrek⁷ (TEXONO Collaboration)

¹Department of Physics, Dokuz Eylül University, Buca, İzmir TR35390, Turkey
²Institute of Physics, Academia Sinica, Taipei 115, Taiwan
³Institute of High Energy Physics, Chinese Academy of Science, Beijing 100039, China
⁴College of Physical Science and Technology, Sichuan University, Chengdu 610064, China
⁵Department of Physics, Institute of Science, Banaras Hindu University, Varanasi 221005, India
⁶Department of Engineering Physics, Tsinghua University, Beijing 100084, China
⁷Department of Physics, Middle East Technical University, Ankara TR06800, Turkey

^*Corresponding authors: muhammed.deniz@deu.edu.tr; htwong@phys.sinica.edu.tw

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Vol. 98, Iss. 2 — August 2018

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Physical Review C

covering nuclear physics