Reactor-Driven Neutron Sources from the 207Pb(γ,n) and 205Tl(γ,n) Reactions

Sylvian Kahane; Yair Ben-Dov; Raymond Moreh

doi:10.1080/00295450.2022.2102847

Reactor-Driven Neutron Sources from the ²⁰⁷Pb(γ,n) and ²⁰⁵Tl(γ,n) Reactions

Sylvian Kahane, Yair Ben-Dov, Raymond Moreh

Department of Physics

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Monoenergetic gamma beams (Δ ~ 10 eV) based on thermal neutron capture, in a nuclear reactor, using the V(n,γ) and Fe(n,γ) reactions were utilized for generating fast neutron sources from lead and thallium, respectively, via the ²⁰⁷Pb(γ,n) and ²⁰⁵Tl(γ,n) reactions. It so happens that one of the incident gamma lines of the V source, E_γ = 7163 keV, photoexcites by chance a resonance level in ²⁰⁷Pb, which emits neutrons at an energy of 423 keV. In a similar manner the incident gamma line at E_γ = 7646 keV of the Fe(n,γ) source photoexcites by chance a resonance level in the ²⁰⁵Tl isotope, which emits neutrons at an energy of 99 keV. The cross sections for the neutron emission process were measured and found to be σ(γ,n) = 35 ± 6 mb and 107 ± 17 mb, respectively, with intensities of the order of 10⁴ n/s.

Original language	English
Pages (from-to)	115-126
Number of pages	12
Journal	Nuclear Technology
Volume	209
Issue number	1
DOIs	https://doi.org/10.1080/00295450.2022.2102847
State	Published - 1 Jan 2023

Keywords

205Tl(γ,n) reaction
207Pb(γ,n) reaction
Fe(n,γ) reaction
Gamma-ray beams
V(n,γ) reaction
nuclear reactor

ASJC Scopus subject areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering
Condensed Matter Physics

Access to Document

10.1080/00295450.2022.2102847

Cite this

@article{1991e371973b4cad83fbcbb23e5496f3,

title = "Reactor-Driven Neutron Sources from the 207Pb(γ,n) and 205Tl(γ,n) Reactions",

abstract = "Monoenergetic gamma beams (Δ \textasciitilde{} 10 eV) based on thermal neutron capture, in a nuclear reactor, using the V(n,γ) and Fe(n,γ) reactions were utilized for generating fast neutron sources from lead and thallium, respectively, via the 207Pb(γ,n) and 205Tl(γ,n) reactions. It so happens that one of the incident gamma lines of the V source, Eγ = 7163 keV, photoexcites by chance a resonance level in 207Pb, which emits neutrons at an energy of 423 keV. In a similar manner the incident gamma line at Eγ = 7646 keV of the Fe(n,γ) source photoexcites by chance a resonance level in the 205Tl isotope, which emits neutrons at an energy of 99 keV. The cross sections for the neutron emission process were measured and found to be σ(γ,n) = 35 ± 6 mb and 107 ± 17 mb, respectively, with intensities of the order of 104 n/s.",

keywords = "205Tl(γ,n) reaction, 207Pb(γ,n) reaction, Fe(n,γ) reaction, Gamma-ray beams, V(n,γ) reaction, nuclear reactor",

author = "Sylvian Kahane and Yair Ben-Dov and Raymond Moreh",

note = "Publisher Copyright: {\textcopyright} 2022 American Nuclear Society.",

year = "2023",

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T1 - Reactor-Driven Neutron Sources from the 207Pb(γ,n) and 205Tl(γ,n) Reactions

AU - Kahane, Sylvian

AU - Ben-Dov, Yair

AU - Moreh, Raymond

PY - 2023/1/1

Y1 - 2023/1/1

N2 - Monoenergetic gamma beams (Δ ~ 10 eV) based on thermal neutron capture, in a nuclear reactor, using the V(n,γ) and Fe(n,γ) reactions were utilized for generating fast neutron sources from lead and thallium, respectively, via the 207Pb(γ,n) and 205Tl(γ,n) reactions. It so happens that one of the incident gamma lines of the V source, Eγ = 7163 keV, photoexcites by chance a resonance level in 207Pb, which emits neutrons at an energy of 423 keV. In a similar manner the incident gamma line at Eγ = 7646 keV of the Fe(n,γ) source photoexcites by chance a resonance level in the 205Tl isotope, which emits neutrons at an energy of 99 keV. The cross sections for the neutron emission process were measured and found to be σ(γ,n) = 35 ± 6 mb and 107 ± 17 mb, respectively, with intensities of the order of 104 n/s.

AB - Monoenergetic gamma beams (Δ ~ 10 eV) based on thermal neutron capture, in a nuclear reactor, using the V(n,γ) and Fe(n,γ) reactions were utilized for generating fast neutron sources from lead and thallium, respectively, via the 207Pb(γ,n) and 205Tl(γ,n) reactions. It so happens that one of the incident gamma lines of the V source, Eγ = 7163 keV, photoexcites by chance a resonance level in 207Pb, which emits neutrons at an energy of 423 keV. In a similar manner the incident gamma line at Eγ = 7646 keV of the Fe(n,γ) source photoexcites by chance a resonance level in the 205Tl isotope, which emits neutrons at an energy of 99 keV. The cross sections for the neutron emission process were measured and found to be σ(γ,n) = 35 ± 6 mb and 107 ± 17 mb, respectively, with intensities of the order of 104 n/s.

KW - 205Tl(γ,n) reaction

KW - 207Pb(γ,n) reaction

KW - Fe(n,γ) reaction

KW - Gamma-ray beams

KW - V(n,γ) reaction

KW - nuclear reactor

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DO - 10.1080/00295450.2022.2102847

M3 - Article

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