Neutron detection with a NaI spectrometer using high-energy photons

Holm, Philip; Perajärvi, K.; Sihvonen, Ari-Pekka; Siiskonen, T.; Toivonen, H.

doi:10.1016/j.nima.2012.09.010

Cited by 11 publications

(9 citation statements)

References 10 publications

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“…One alternative approach for neutron detection is to use high-energy gamma-rays (energies higher than 3 MeV) produced in (n,γ) and ðn; n 0 γÞ reactions [2,3]. In this paper, we discuss the expected γ-ray spectra when a cylindrical NaI crystal 4 in.…”

Section: Introductionmentioning

confidence: 99%

RETRACTED: Neutron detection by large NaI crystal

Lavagno

Gervino

2016

Nuclear Instruments and Methods in Physics Research Section A:

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Section: Introductionmentioning

confidence: 99%

RETRACTED: Neutron detection by large NaI crystal

Lavagno

Gervino

2016

Nuclear Instruments and Methods in Physics Research Section A:

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“…Neutrons have previously been detected by these scintillation devices through various approaches (see Table 1). It is important to note that, in [4], when a NaI spectrometer was compared to a 3 He-based portal monitor with a comparable active volume, the detection efficiencies and minimum detectable activities of the devices were found to be similar.…”

Section: Introductionmentioning

confidence: 92%

“…Neutrons Short description [3] NaI thermal boron lining with available NaI detectors [4] NaI thermal high-energy photons following (n,γ) reactions in the NaI [5,6] NaI(Tl) thermal triple β−γ−γ coincidences in two detectors following (n,γ) reactions on 23 Na [7] NaI thermal activated NaI detector ( 128 I β−decay, T 1/2 = 25 min and 24 Na β−decay, T 1/2 = 15 h) [8] CsI(Na) fast 57.6 keV signal from 127 I(n,n ′ ) inelastic scattering [9] NaI(Tl), CsI(Tl) fast 1-200 MeV neutrons, (n,p) and (n,α) reactions, pulse-shape discrimination…”

Section: Reference Detectormentioning

confidence: 99%

Sensitive neutron detection method using delayed coincidence transitions in existing iodine-containing detectors

Yakushev¹,

Rozov²,

Drokhlyansky³

et al. 2017

Nuclear Instruments and Methods in Physics Research Section A:

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This work explains a new, highly sensitive method for the detection of neutrons, which uses the T 1/2 = 845 ns delay in the decay of 128 I at the 137.8 keV energy level, resulting from the capture of thermal neutrons by iodine nuclei in NaI and CsI scintillation detectors. The use of delayed coincidence techniques with a several µs delay time window for delayed events allows for the highly effective discrimination of neutron events from any existing background signals. A comparison of ambient neutron measurements between those identified through the suggested method from a cylindrical, ø 63 mm × 63 mm NaI(Tl) scintillator and those from a low-background proportional 3 He counter experimentally demonstrates the efficacy of this neutron detection method. For an isotropic, 4π, thermal neutron flux of 1 n cm −2 s −1 , the absolute sensitivity of the NaI detector was found to be 6.5 ± 1 counts s −1 with an accidental coincidence background of 0.8 events day −1 for any delay time window of ∆t = 1 µs. The proposed method can provide low-background experiments, using NaI or CsI, with measurements of the rate and stability of incoming neutron flux to a greater accuracy than 10 −8 n cm −2 s −1 .

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“…PVC and polyethylene slabs were 2 cm thick. This kind of converter/moderator structure more than doubles the high energy signal [1]. A 10 cm thick sandwich converter/moderator was chosen as a compromise between the performance and size.…”

Section: Neutron Detection With High Energy Gamma-raysmentioning

confidence: 99%

“…Cross-sectional areas of the detectors were comparable but the active volume of the NaI detector was larger by approximately a factor of three. Measurements with both bare and shielded 252 Cf and AmBe sources are reported in [1]. It is noteworthy in these studies that the 3 He tube has a higher detection efficiency compared to the NaI detector only when measuring unshielded 252 Cf source.…”

Section: Neutron Detection With High Energy Gamma-raysmentioning

confidence: 99%

Novel Coincidence Techniques, Detectors and Concepts for Safety, Security and Safeguards

Perajärvi¹

2014

Acta Phys. Pol. B

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Research and development (R&D) projects are used to maintain and improve STUK's ability to act and advice other competent authorities correctly in conditions involving nuclear and other radioactive materials. Examples from recent or ongoing in-field and laboratory R&D projects are given. All projects introduced are related to passive detection of alpha particle emitting nuclides or neutron sources.

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Neutron detection with a NaI spectrometer using high-energy photons

Cited by 11 publications

References 10 publications

RETRACTED: Neutron detection by large NaI crystal

RETRACTED: Neutron detection by large NaI crystal

Sensitive neutron detection method using delayed coincidence transitions in existing iodine-containing detectors

Novel Coincidence Techniques, Detectors and Concepts for Safety, Security and Safeguards

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