Evaluation of large deuterated scintillators for fast neutron detection ( E=0.5–20 MeV) using the D(d,n) 3He, 13C(d,n) and 27Al(d,n) reactions

The response of large deuterated liquid scintillators (up to 10 cm diameter by 15 cm) to neutrons 0.5–20 MeV has been studied using the 2.5 MeV neutron generator at the University of Michigan, and the d(d,n), 13C(d,n), 27Al(d,n) and other reactions at the University of Notre Dame FN tandem accelerat...

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Published inNuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Vol. 652; no. 1; pp. 397 - 399
Main Authors Ojaruega, M., Becchetti, F.D., Villano, A.N., Jiang, Hao, Torres-Isea, R.O., Kolata, J.J., Roberts, A., Lawrence, C.C.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2011
Subjects
Deuterated liquid scintillators
Neutron detection
Neutron time-of-flight
Nuclear reactions
Deuterated liquid scintillators
Neutron time-of-flight
Nuclear reactions
Neutron detection
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Abstract The response of large deuterated liquid scintillators (up to 10 cm diameter by 15 cm) to neutrons 0.5–20 MeV has been studied using the 2.5 MeV neutron generator at the University of Michigan, and the d(d,n), 13C(d,n), 27Al(d,n) and other reactions at the University of Notre Dame FN tandem accelerator. The latter utilize 9 and 16 MeV deuteron beams including a pulsed beam, which permitted time-of-flight measurements. Combining pulse-shape discrimination and time-of-flight allows gating on specific neutron energy groups to determine the detector response to specific neutron energies. This will permit accurate simulation of the detector response functions for applications of these detectors in nuclear research and homeland security applications.
AbstractList The response of large deuterated liquid scintillators (up to 10 cm diameter by 15 cm) to neutrons 0.5–20 MeV has been studied using the 2.5 MeV neutron generator at the University of Michigan, and the d(d,n), 13C(d,n), 27Al(d,n) and other reactions at the University of Notre Dame FN tandem accelerator. The latter utilize 9 and 16 MeV deuteron beams including a pulsed beam, which permitted time-of-flight measurements. Combining pulse-shape discrimination and time-of-flight allows gating on specific neutron energy groups to determine the detector response to specific neutron energies. This will permit accurate simulation of the detector response functions for applications of these detectors in nuclear research and homeland security applications.
Author Villano, A.N.
Ojaruega, M.
Roberts, A.
Becchetti, F.D.
Kolata, J.J.
Jiang, Hao
Torres-Isea, R.O.
Lawrence, C.C.
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Keywords Deuterated liquid scintillators
Neutron time-of-flight
Nuclear reactions
Neutron detection
Language English
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SubjectTerms Deuterated liquid scintillators
Neutron detection
Neutron time-of-flight
Nuclear reactions
Title Evaluation of large deuterated scintillators for fast neutron detection ( E=0.5–20 MeV) using the D(d,n) 3He, 13C(d,n) and 27Al(d,n) reactions
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