Experimental data on
fusion
elastic scattering
evaporation residue

Experimental data on elastic scattering

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14N + 59Co,   Elab=40 MeV

C.Muri, R.M.Anjos, R.Cabezas, P.R.S.Gomes, S.B.Moraes, A.M.M.Maciel, G.M.Santos, J.Lubian, M.M.Sant Anna, C.Tenreiro, R.Liguori Neto, J.C.Acquadro, P.A.B.Freitas,
European Physical Journal, A149 (1998) 143
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Comments
Beam quality: The 14N beam was extracted from a Duoplasmatron ion source, and its intensity on the target was typically of the order of 50 nA.
Target: The targets were prepared by evaporation of metallic cobalt, thickness of the order of 50 μg/cm2. Its were deposited on 5-10 μg/cm2 carbon backings. A thin layer of 2 μg/cm2 of 197Au was also deposited on the target for calculation and normalization purposes.
Data obtained: exported from EXFOR
The experiments were performed at the 8UD Pelletron accelerator of the University of Sao Paulo. The uncertainties in the differential cross section data vary from 1% to 10 % for the elastic scattering. 

 
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Θcm (deg)σ/σR (ratio)error (%)+δσ-δσ
9.9 1.12 10 0.1121 0.1121
13.7 1.06 10 0.106 0.106
16.2 1.19 10 0.119 0.119
19.6 1.06 10 0.106 0.106
22.6 1.12 10 0.1121 0.1121
25.5 1.19 10 0.119 0.119
28 1.12 10 0.1121 0.1121
31.8 1.19 10 0.119 0.119
33.1 1.06 10 0.106 0.106
34.3 1.06 10 0.106 0.106
38.5 1.12 10 0.1121 0.1121
39.8 1.19 10 0.119 0.119
44.4 1.06 10 0.106 0.106
46.5 1.06 10 0.106 0.106
49.9 1.06 10 0.106 0.106
52.8 1.06 10 0.106 0.106
56.6 1.12 10 0.1121 0.1121
58.7 1.19 10 0.119 0.119
63.3 1.33 10 0.133 0.133
69.6 1.19 10 0.119 0.119
75.1 0.94 10 0.094 0.094
81.4 0.67 12 0.0804 0.0804
87.3 0.56 15 0.0841 0.0841
91.9 0.38 18 0.0684 0.0684
97.4 0.251 15 0.0377 0.0377
102 0.15 20 0.03 0.03