Bibliography of experimental data
Eleven datasets with experimental cross section data were identified in the literature in the considered energy range and are represented with uncertainties in Fig. All data. Three datasets were deselected due to too high or too low values. A too low point of Zhenlan et al (1981) was not included in the data analysis and not shown in the figures. The remaining datasets were used as input for a least-square Pade fit. The Pade functions with 10 parameters were fitted to 145 selected data points with a χ2=2.18 and covering the energy range up to 30 MeV as shown in Fig. Recommended. The uncertainty (including a 4% systematic uncertainty) ranges from 56% near the reaction threshold and decreases to 8.5% around 16 MeV energy and steadily increases to 9.5% around 30 MeV.
F. W.
Pement, R. L. Wolke,
“Compound-statistical features of deuteron-induced reactions:(II) The compound nucleus and stripping-evaporation mechanisms in (d,2n) reactions”,
Nucl. Phys. 86 (1966) 429–442.
EXFOR: P0115
* S. J.
Nassiff, H. Munzel,
“Cross sections for the reactions 66Zn(d,n)67Ga, 52Cr(d,2n)52gMn and 186W(d,2n)186Re”,
Radiochim. Acta 19 (1973) 97-99.
EXFOR: A0202
Remarks: unusual shape, too high values
T.
Zhenlan, Z. Fuying, Q. Huiyuan, W. Gongqing,
“Excitation functions for 182-186W(d,2n)182-186Re and 186W(d,p)187W reactions”,
Chin. J. Nucl. Phys. 3 (1981) 242.
EXFOR: S0014
* S.
Mukhammedov, A. Vasidov, E. Pardaev,
“ Application of proton and neutron activation method of analysis for the determination of elements with Z greater than 42”,
Atomnaya Energiya 56 (1984) 56-58.
Exfor: A0212
Remarks: unusual shape, too high values
N. S. Ishioka, S. Watanabe, A. Osa, M. Koizumi, H. Matsuoka, T. Sekine,
“Excitation functions of rhenium isotopes on the natW(d,xn) reactions and production of no-carrier added 186Re”,
Int. Conf. Nucl. Data for Science and Technology (Proc.Int. Conf. Tsukuba, 2001), (K. Shibata, et al., Eds),
J. Nucl. Sci. Technol. Suppl. 2 (2002)1334–1337.
EXFOR: E2083
F.
Tárkányi, S. Takács, F. Szelecsenyi, F. Ditrói, A. Hermanne, M. Sonck,
“Excitation functions of deuteron induced nuclear reactions on natural tungsten up to 50 MeV”,
Nucl. Instrum. Meth. Phys. Res. B 211 (2003) 319–330.
EXFOR: D4141
F.
Szelecsenyi, S. Takács, F. Tárkányi, M. Sonck, A. Hermanne,
“Study of production possibility of 186Re via the 186W(d,2n)186Re nuclear reaction for use of radiotherapy”,
J. Labelled Compd. Radiopharm. Suppl. 42 (1999) 912.
EXFOR: no
* I. E.
Alekseev, V. V. Lazarev,
“Cyclotron production and radiochemical isolation of the therapeutical radionuclide 186Re”,
Soviet Radiochem. 48 (2006) 446–449.
EXFOR: no
Remarks: shifted in energy
K. Ochiai,
M. Nakao, N. Kubota, S. Sato, M. Yamauchi, N. H. Ishioka, T. Nishitani, C.
Konno
Deuteron induced activation cross section measurement
Proceedings of the 2007 International Conference on Nuclear Data for Science and Technology ND 2007; Nice (France); 22-27 Apr 2007, p. 1011-1014 Vol.2,
EXFOR: E2121
S.
Manenti, E. Persico, K. Abbas, M. L .Bonardi, L. Gini, F .Groppi, U. Holzwarth,
F. Simonelli.
“Excitation functions and yields for cyclotron production of radiorhenium via deuteron irradiation: natW(d,xn)181,182(A+B),183,184(m+g),186gRe nuclear reactions and tests on the production of 186gRe using enriched 186W”
Radiochimica Acta 102 (2014) 669-680
EXFOR:O2224
C. Duchemin, A. Guertin, F. Haddad, N. Michel, V. Metivier,
“Cross section measurements of deuteron induced nuclear reactions on natural tungsten up to 34 MeV”
Appl. Rad. Isot. 97 (2015) 52-58
EXFOR:O2258
M. U.
Khandaker, K. Nagatsu, K. Minegishi, T. Wakui, M.-R. Zhang, N. Otuka,
“Study of deuteron-induced nuclear reactions on natural tungsten for the production of theranostic 186Re via AVF cyclotron up to 38 MeV”
Nucl. Instrum. Meth. Phys. Res. B 403 (2017)51-68
EXFOR:E2537
Last updated: Aug. 2021.