Bibliography of experimental data
Only in one publication cross section values for this specific reaction are available: Blaser et al. (1951). By normalizing for target abundance in natSr, values for the reaction can be deduced up to the threshold of the 88Sr(p,2n) (13.914 MeV) reaction from the data of Kettern et al. (2007) (up to 14.3MeV) and Elbinawi et al. (2018) (up to 13.8 MeV). Cumulative cross section were calculated from Levkovskij (1991) (corrected for outdated monitor), and Udin et al. (2020) obtained by weighted summation (g+1.2*0.9843*m). The cross sections and their uncertainties are shown in Fig. All data. As the data of Kettern et al. (2007) and Udin et al. (2020) are clearly outlying above 8 MeV they were deselected, as well as the point at 10.4 MeV of Elbinawi et al. (2018). The remaining cross sections are represented in Fig. Selected in comparison with data of the TENDL-2019 and TENDL-2021. The Padé functions with 7 parameters were fitted to 29 selected data points with a χ2 = 0.84 and covering the energy range up to 20 MeV as shown in Fig. Recommended. The uncertainties (including 4% systematic uncertainty) are about 75% around 4 to 6 MeV, decrease steadily to below 9% over the 6 - 11 MeV domain and remain at that level up to 19 MeV before rising to 25% at the highest energy.
V.N. Levkovskij, Cross-sections of medium mass nuclide activation (A=40-100) by medium energy protons and alpha-particles (E=10-50 MeV), Inter Vesi Moscow, (1991), USSR;
EXFOR: A0510
J.P. Blaser, F. Boehm, P. Marmier, P. Scherrer,
Excitation functions and cross sections of the (p,n) reaction (II),
Helvetica Physica Acta, 24 (1951) 441;
EXFOR: P0033011
K. Kettern, K.-H. Linse, S. Spellerberg, H.H. Coenen, S.M. Qaim,
Radiochemical studies relevant to the production of Y-86 and Y-88 at small-sized cyclotron,
Radiochimica
Acta, 90 (2002) 845;
EXFOR
O1027
A. Elbinawi, M. Al-Abyad, I. Bashter, U.
Seddik, F. Ditrói,
Excitation function of proton induced nuclear reaction on strontium: Special relevance to the production of 88Y,
Applied Radiation and Isotopes, 140 (2018) 272;
EXFOR D4389
M. S. Udin, B. Scholten, M.S. Basunia, S. Sudar, S. Spellerberg, A.S. Voyles, J.T. Morrell, H. Zaneb, J.A. Rios, I. Spahn, L.A. Bernstein, B. Neumaier, S.M. Qaim,
Accurate determination of production data of the non-standard positron emitter 86Y via the 86Sr(p,n) reaction,
Radiochimica Acta, 108 (2020) 747;
EXFOR: O2534
Last updated: November. 2022.