41K(n, γ) 42K thermal and resonance integral cross section measurements

F. A. Ferreira; N. L. Maidana; V. R. Vanin; M. S. Dias; M. F. Koskinas; N. López-Pino

doi:10.1524/ract.2012.1985

⁴¹K(n, γ) ⁴²K thermal and resonance integral cross section measurements

F. A. Ferreira, N. L. Maidana, V. R. Vanin, M. S. Dias, M. F. Koskinas, N. López-Pino

Radiation Physics

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

2 Scopus citations

Abstract

We measured the ⁴¹K thermal neutron absorption and resonance integral cross sections after the irradiation of KNO3 samples near the core of the IEA-R1 IPEN pooltype research reactor. Bare and cadmium-covered targets were irradiated in pairs with Au-Al alloy flux-monitors. The residual activities were measured by gamma-ray spectroscopy with a HPGe detector, with special care to avoid the ⁴²K decay β- emission effects on the spectra. The gamma-ray self-absorption was corrected with the help of MCNP simulations. We applied the Westcott formalism in the average neutron flux determination and calculated the depression coefficients for thermal and epithermal neutrons due to the sample thickness with analytical approximations. We obtained 1.57(4) and 1.02(4) b, for thermal and resonance integral cross sections, respectively, with correlation coefficient equal to 0.39.

Original language	English (US)
Pages (from-to)	871-877
Number of pages	7
Journal	Radiochimica Acta
Volume	100
Issue number	12
DOIs	https://doi.org/10.1524/ract.2012.1985
State	Published - 2012

Keywords

Gamma ray spectrometry
K
K
Neutron activation
Resonance integral
Thermal cross section

ASJC Scopus subject areas

Physical and Theoretical Chemistry

Access to Document

10.1524/ract.2012.1985

Cite this

@article{990f30af87c9410780bc790cdb2a5cc6,

title = "41K(n, γ) 42K thermal and resonance integral cross section measurements",

abstract = "We measured the 41K thermal neutron absorption and resonance integral cross sections after the irradiation of KNO3 samples near the core of the IEA-R1 IPEN pooltype research reactor. Bare and cadmium-covered targets were irradiated in pairs with Au-Al alloy flux-monitors. The residual activities were measured by gamma-ray spectroscopy with a HPGe detector, with special care to avoid the 42K decay β- emission effects on the spectra. The gamma-ray self-absorption was corrected with the help of MCNP simulations. We applied the Westcott formalism in the average neutron flux determination and calculated the depression coefficients for thermal and epithermal neutrons due to the sample thickness with analytical approximations. We obtained 1.57(4) and 1.02(4) b, for thermal and resonance integral cross sections, respectively, with correlation coefficient equal to 0.39.",

keywords = "Gamma ray spectrometry, K, K, Neutron activation, Resonance integral, Thermal cross section",

author = "Ferreira, {F. A.} and Maidana, {N. L.} and Vanin, {V. R.} and Dias, {M. S.} and Koskinas, {M. F.} and N. L{\'o}pez-Pino",

year = "2012",

doi = "10.1524/ract.2012.1985",

language = "English (US)",

volume = "100",

pages = "871--877",

journal = "Radiochimica Acta",

issn = "0033-8230",

publisher = "R. Oldenbourg",

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TY - JOUR

T1 - 41K(n, γ) 42K thermal and resonance integral cross section measurements

AU - Ferreira, F. A.

AU - Maidana, N. L.

AU - Vanin, V. R.

AU - Dias, M. S.

AU - Koskinas, M. F.

AU - López-Pino, N.

PY - 2012

Y1 - 2012

N2 - We measured the 41K thermal neutron absorption and resonance integral cross sections after the irradiation of KNO3 samples near the core of the IEA-R1 IPEN pooltype research reactor. Bare and cadmium-covered targets were irradiated in pairs with Au-Al alloy flux-monitors. The residual activities were measured by gamma-ray spectroscopy with a HPGe detector, with special care to avoid the 42K decay β- emission effects on the spectra. The gamma-ray self-absorption was corrected with the help of MCNP simulations. We applied the Westcott formalism in the average neutron flux determination and calculated the depression coefficients for thermal and epithermal neutrons due to the sample thickness with analytical approximations. We obtained 1.57(4) and 1.02(4) b, for thermal and resonance integral cross sections, respectively, with correlation coefficient equal to 0.39.

AB - We measured the 41K thermal neutron absorption and resonance integral cross sections after the irradiation of KNO3 samples near the core of the IEA-R1 IPEN pooltype research reactor. Bare and cadmium-covered targets were irradiated in pairs with Au-Al alloy flux-monitors. The residual activities were measured by gamma-ray spectroscopy with a HPGe detector, with special care to avoid the 42K decay β- emission effects on the spectra. The gamma-ray self-absorption was corrected with the help of MCNP simulations. We applied the Westcott formalism in the average neutron flux determination and calculated the depression coefficients for thermal and epithermal neutrons due to the sample thickness with analytical approximations. We obtained 1.57(4) and 1.02(4) b, for thermal and resonance integral cross sections, respectively, with correlation coefficient equal to 0.39.

KW - Gamma ray spectrometry

KW - K

KW - Neutron activation

KW - Resonance integral

KW - Thermal cross section

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DO - 10.1524/ract.2012.1985

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JO - Radiochimica Acta

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