An 6Li + 89Y experiment was conducted at the Laboratori Nazinali di Legnaro, INFN, Italy. The 550 μ g/cm2 thick 89Y target was backed on a 340 μ g/cm2 thick 12C foil. The several γ rays in the experiment with energies higher than 3000 keV can most likely be ascribed to the transitions in the 13C nuclei, which can be formed through various interactions between the 6Li beam and the 12C foil. The high-energy properties of γ rays in 13C are employed for energy calibrating HPGe detectors, especially for the > 3000 keV region, which is impossible to reach by common standard sources (152Eu, 133Ba, etc.). Furthermore, γ–γ and particle–γ coincidence measurements were performed to investigate the formation of 13C.
Energy calibration of HPGe detector using the high-energy characteristic γ rays in 13C formed in 6Li + 12C reaction
Testov D.;John P. R.;Goasduff A.;Galtarossa F.;Recchia F.;Mengoni D.;
2020
Abstract
An 6Li + 89Y experiment was conducted at the Laboratori Nazinali di Legnaro, INFN, Italy. The 550 μ g/cm2 thick 89Y target was backed on a 340 μ g/cm2 thick 12C foil. The several γ rays in the experiment with energies higher than 3000 keV can most likely be ascribed to the transitions in the 13C nuclei, which can be formed through various interactions between the 6Li beam and the 12C foil. The high-energy properties of γ rays in 13C are employed for energy calibrating HPGe detectors, especially for the > 3000 keV region, which is impossible to reach by common standard sources (152Eu, 133Ba, etc.). Furthermore, γ–γ and particle–γ coincidence measurements were performed to investigate the formation of 13C.Pubblicazioni consigliate
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