Publications

Progress in obtaining an absolute calibration of a total deuterium-tritium neutron yield diagnostic based on copper activation

Ruiz, Carlos L.; Chandler, Gordon A.; Cooper, G.W.; Fehl, D.L.; Hahn, K.D.; Leeper, Ramon J.; McWatters, Bruce R.; Nelson, A.J.; Smelser, Ruth S.; Snow, C.S.; Torres, J.A.

The 350-keV Cockroft-Walton accelerator at Sandia National laboratorys Ion Beam facility is being used to calibrate absolutely a total DT neutron yield diagnostic based on the 63Cu(n,2n) 62Cu(β+) reaction. These investigations have led to first-order uncertainties approaching 5 or better. The experiments employ the associated-particle technique. Deuterons at 175 keV impinge a 2.6 μm thick erbium tritide target producing 14.1 MeV neutrons from the T(d,n) 4He reaction. The alpha particles emitted are measured at two angles relative to the beam direction and used to infer the neutron flux on a copper sample. The induced 62Cu activity is then measured and related to the neutron flux. This method is known as the F-factor technique. Description of the associated-particle method, copper sample geometries employed, and the present estimates of the uncertainties to the F-factor obtained are given. © 2012 American Institute of Physics.