Fast-neutron activation of long-lived isotopes in enriched Ge

S. R. Elliott; V. E. Guiseppe; B. H. Laroque; R. A. Johnson; S. G. Mashnik

doi:10.1103/PhysRevC.82.054610

Fast-neutron activation of long-lived isotopes in enriched Ge

S. R. Elliott
, V. E. Guiseppe
, B. H. Laroque
, R. A. Johnson
, S. G. Mashnik

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

23 Scopus citations

Abstract

We measured the production of Co57, Mn54, Ge68, Zn65, and Co60 in a sample of Ge enriched in isotope 76 due to high-energy neutron interactions. These isotopes, especially Ge68, are critical in understanding background in Ge detectors used for double β decay experiments. They are produced by cosmogenic-neutron interactions in the detectors while they reside on the Earth's surface. These production rates were measured at neutron energies of a few hundred MeV. We compared the measured production to that predicted by cross-section calculations based on CEM03.02. The cross-section calculations overpredict our measurements by approximately a factor of 3 depending on isotope. We then use the measured cosmic-ray neutron flux, our measurements, and the CEM03.02 cross sections to predict the cosmogenic production rate of these isotopes. The uncertainty in extrapolating the cross-section model to higher energies dominates the total uncertainty in the cosmogenic production rate.

Original language	English
Article number	054610
Journal	Physical Review C - Nuclear Physics
Volume	82
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevC.82.054610
State	Published - Nov 16 2010
Externally published	Yes

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title = "Fast-neutron activation of long-lived isotopes in enriched Ge",

abstract = "We measured the production of Co57, Mn54, Ge68, Zn65, and Co60 in a sample of Ge enriched in isotope 76 due to high-energy neutron interactions. These isotopes, especially Ge68, are critical in understanding background in Ge detectors used for double β decay experiments. They are produced by cosmogenic-neutron interactions in the detectors while they reside on the Earth's surface. These production rates were measured at neutron energies of a few hundred MeV. We compared the measured production to that predicted by cross-section calculations based on CEM03.02. The cross-section calculations overpredict our measurements by approximately a factor of 3 depending on isotope. We then use the measured cosmic-ray neutron flux, our measurements, and the CEM03.02 cross sections to predict the cosmogenic production rate of these isotopes. The uncertainty in extrapolating the cross-section model to higher energies dominates the total uncertainty in the cosmogenic production rate.",

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T1 - Fast-neutron activation of long-lived isotopes in enriched Ge

AU - Elliott, S. R.

AU - Guiseppe, V. E.

AU - Laroque, B. H.

AU - Johnson, R. A.

AU - Mashnik, S. G.

PY - 2010/11/16

Y1 - 2010/11/16

N2 - We measured the production of Co57, Mn54, Ge68, Zn65, and Co60 in a sample of Ge enriched in isotope 76 due to high-energy neutron interactions. These isotopes, especially Ge68, are critical in understanding background in Ge detectors used for double β decay experiments. They are produced by cosmogenic-neutron interactions in the detectors while they reside on the Earth's surface. These production rates were measured at neutron energies of a few hundred MeV. We compared the measured production to that predicted by cross-section calculations based on CEM03.02. The cross-section calculations overpredict our measurements by approximately a factor of 3 depending on isotope. We then use the measured cosmic-ray neutron flux, our measurements, and the CEM03.02 cross sections to predict the cosmogenic production rate of these isotopes. The uncertainty in extrapolating the cross-section model to higher energies dominates the total uncertainty in the cosmogenic production rate.

AB - We measured the production of Co57, Mn54, Ge68, Zn65, and Co60 in a sample of Ge enriched in isotope 76 due to high-energy neutron interactions. These isotopes, especially Ge68, are critical in understanding background in Ge detectors used for double β decay experiments. They are produced by cosmogenic-neutron interactions in the detectors while they reside on the Earth's surface. These production rates were measured at neutron energies of a few hundred MeV. We compared the measured production to that predicted by cross-section calculations based on CEM03.02. The cross-section calculations overpredict our measurements by approximately a factor of 3 depending on isotope. We then use the measured cosmic-ray neutron flux, our measurements, and the CEM03.02 cross sections to predict the cosmogenic production rate of these isotopes. The uncertainty in extrapolating the cross-section model to higher energies dominates the total uncertainty in the cosmogenic production rate.

UR - https://www.scopus.com/pages/publications/79251496667

U2 - 10.1103/PhysRevC.82.054610

DO - 10.1103/PhysRevC.82.054610

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VL - 82

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

IS - 5

M1 - 054610

ER -

Fast-neutron activation of long-lived isotopes in enriched Ge

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