Pair Spectrometer Measurements of the Radiations from Excited States of Light Nuceli

Abstract
A magnetic-lens pair spectrometer has been used to study the radiations produced by the bombardment of certain light nuclei with protons and deuterons from a Van de Graaff accelerator. Gamma rays from the bombardment of F19 with 3.7-Mev protons were observed at 6.10±0.04 and 6.99±0.04 Mev. At 4.7-Mev bombarding energy, no lines were observed between 7.5 and 11.0 Mev with an intensity as great as 10 percent of that of the 6.99-Mev line. Gamma rays from the bombardment of C13 with 2.0-Mev deuterons were observed at 3.42±0.03, 3.71±0.05, 3.94±0.06, 4.48±0.04, 4.96±0.03, 5.12±0.04, 5.74±0.03, 6.14 ±0.03, 6.53±0.05, and 6.72±0.03 Mev. At 4.0-Mev bombarding energy, lines were observed at 6.14±0.03, 6.53±0.04, 6.72±0.03, 7.09±0.03, and 7.34±0.04 Mev. Gamma rays from the bombardment of C12 with 4.0-Mev deuterons were observed at 3.76±0.02 and 3.86±0.02 Mev. No lines were observed between 3.86 and 5.8 Mev with an intensity as great as 10 percent of that of the 3.86-Mev line. All the energies of γ rays given above are uncorrected for Doppler shifts which in some cases are as large as 40 kev. A search was made for nuclear pairs which might originate from the proton bombardment of B11. No pairs were observed at 4.0-Mev bombarding energy in the energy range between 6.5 and 9.5 Mev. A search was also made for nuclear pairs which might result from the Li7(d, n)Be8 reaction. No pairs were observed in the energy range between 5.0 and 8.5 Mev.