Bibliography of experimental data
Four publications containing cross-section values for the natSr(p,x)87mY reaction were found Michel et al. (1997), Kettern et al. (2002), Elbinawi et al. (2018), Hermanne et al. (2021). By making a weighted summation of the data of Levkovskij (1991) for the relevant reactions on enriched 87Sr and 88Sr targets a fifth dataset was created. The data obtained on enriched 88Sr targets available in Sachdev et al. (1967) were normalized. The normalized data obtained on impurity 87Sr targets by Udin et al. (2020) were added. All these cross-sections and their uncertainties are shown in Fig. All data. All Udin et al. (2020) data, the 4 outlying high energy points of Kettern et al. (2007) and the 3 points at the lower energy of Sachdev et al. (1967) were deselected. The remaining cross-section values relevant for fitting up to 70 MeV are represented in Fig. Selected together with the TENDL-2019 and TENDL-2021 calculation. The Padé functions with 13 parameters were fitted to 92 selected data points with a χ2 = 1.81 and covering the energy range up to 70 MeV as shown in Fig. Recommended. The uncertainties (including 4% systematic uncertainty) start at 100% in the 4-6 MeV region decrease slowly to about 25 % over the 6-14 MeV domain and continue to decrease up to the highest energy (less than 15%).
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
R. Michel, R. Bodemann, H. Busemann, R. Daunke, M. Gloris, H.-J. Lange, B. Klug, A. Krins, I. Leya, M. Luepke, S. Neumann, H. Reinhardt, M. Schnatz-Buettgen, U. Herpers, Th.Schiekel, F. Sudbrock, B. Holmqvist, H. Conde, P. Malmborg, M. Suter, B. Dittrich-Hannen, P.-W. Kubik, H.-A. Sinal, D. Filges,
Cross-sections for the production of residual nuclides by low- and medium-energy protons from the target elements C, N, O, Mg, Al, Si, Ca, Ti, V, Mn, Fe, Co, Ni, Cu, Sr, Y, Zr, Nb, Ba and Au, Nucl. Instrum. Methods in Physics Res., Sect.B, 129 (1997) 153
EXFOR: O0276
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
A. Hermanne, F. T. Tárkányi, S. Takács, F. Ditroi,
Cross sections for formation of Y, Sr and Rb radionuclides induced by proton irradiation of natSr up to 33.6 MeV
Nucl. Instrum. Methods in Physics Res., Sect.B, 511 (2022) 91 - 104
EXFOR: D4420
D.R. Sachdev, N.T. Porile, L. Yaffe,
Reactions of 88Sr with protons of energies 7-85 MeV,
Canadian Journal of Chemistry, 45 (1967) 1149
EXFOR: B0069
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: Jan. 2023.