Abstract
We measured the production of , , , , and in a sample of Ge enriched in isotope due to high-energy neutron interactions. These isotopes, especially , are critical in understanding background in Ge detectors used for double 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 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.
- Received 18 December 2009
DOI:https://doi.org/10.1103/PhysRevC.82.054610
©2010 American Physical Society