Fonction d'excitation de 141Pr (p, n) 141Nd Jusqu'à 11.1 MeV

Olkowsky, J.; Et, M. Le Pape; Gratot, I.

doi:10.1016/0029-5582(61)90250-4

Cited by 11 publications

(2 citation statements)

References 14 publications

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“…5. Our data agree with the experimental data of Olkowsky et al [19] in the low energy region and with those of Grytsina et al [20] in the higher energy region. The data by Hogan [5] are too scanty to show a trend.…”

Section: Pr( P N) Nd Reactionsupporting

confidence: 96%

Experimental measurements and nuclear model calculations on the excitation functions of^natCe(³He,xn) and¹⁴¹Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide¹⁴⁰Nd

Hilgers¹,

Shubin²,

Coenen³

et al. 2005

Radiochimica Acta

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For production of the therapy related Auger electron emitting neutron deficient nuclide 140 Nd (T 1/2 = 3.37 d) two routes were investigated: the nuclear reaction nat Ce( 3 He, xn) 140 Nd over the energy range from 15 to 36 MeV and the reaction 141 Pr( p, 2n) 140 Nd from 10 to 45 MeV. Some competing reactions leading to other Nd isotopes, namely 139 Nd and 141 Nd, as well as to 139 Ce were also investigated. Thin samples of cerium(IV)-oxide and praseodymium(III)-oxide were obtained by sedimentation and the conventional stacked-foil technique was used for cross section measurements. All the experimental data obtained in this work were compared with the results of theoretical calculations using the exciton model code ALICE-IPPE as well as with literature experimental data, if available. In general, good agreement between experimental and theoretical results was found. The theoretical thick target yields of all the product nuclides were calculated from the measured excitation functions. The theoretical thick target yield of 140 Nd over the energy range E3 He = 35 → 20 MeV amounts to 12 MBq/µA·h and over the energy range E p = 30 → 15 MeV to 210 MBq/µA·h. A comparison of the two 140 Nd-producing reactions is presented.

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Section: Pr( P N) Nd Reactionsupporting

confidence: 96%

Experimental measurements and nuclear model calculations on the excitation functions of^natCe(³He,xn) and¹⁴¹Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide¹⁴⁰Nd

Hilgers¹,

Shubin²,

Coenen³

et al. 2005

Radiochimica Acta

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“…The main reason for this emphasis on assignment was that there had been considerable attention given to the search 4 for an isomer in Hg 201 because the systematics of isomeric levels seemed to predict a long-lived isomer. When additional evidence accumulated about the energy levels in nuclei somewhat below Pb in the periodic table, the assignment of isomers to the odd-^4 isotopes of Hg took on added significance.…”

Section: Introductionmentioning

confidence: 98%

Photoproduction of a 100-μsec Isomer and its Tentative Assignment toHg201

Euthymiou

Axel

1962

Phys. Rev.

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The photoproduction of a 100db6-jusec isomer from a natural Hg target was studied as a function of bremsstrahlung energy by detecting the 533±7 keV gamma ray which dominates the decay. The isomer is produced mainly by a (y,n) process which has an apparent threshold of 11.3db0.3 MeV and an integrated cross section of 33 MeV mb if the 30% isotope Hg 202 is the parent. In the energy range from 9 to 12 MeV, the isomer is probably produced by a (Y,YO process.The tentative isotopic assignment is strengthened by the presence of what is apparently the same decay gamma ray in the 22-min Au radioactivity which is usually assigned to Au 201 . Prompt beta-gamma coincidences were observed for Au 199 and Au 200 but no prompt coincidences were found for Au 201 . The Au 201 activity has a half-life of 22db3 min and a 530±5-keV gamma ray.

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Figs. 1 - 30 (p, gamma) - (p, 2n)

Keller¹,

Lange²,

Münzel³

et al.

Excitation Functions for Charged-Particle Induced Nuclear Reactions

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Fonction d'excitation de 141Pr (p, n) 141Nd Jusqu'à 11.1 MeV

Cited by 11 publications

References 14 publications

Experimental measurements and nuclear model calculations on the excitation functions of^natCe(³He,xn) and¹⁴¹Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide¹⁴⁰Nd

Experimental measurements and nuclear model calculations on the excitation functions of^natCe(³He,xn) and¹⁴¹Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide¹⁴⁰Nd

Photoproduction of a 100-μsec Isomer and its Tentative Assignment toHg201

Figs. 1 - 30 (p, gamma) - (p, 2n)

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Fonction d'excitation de 141Pr (p, n) 141Nd Jusqu'à 11.1 MeV

Cited by 11 publications

References 14 publications

Experimental measurements and nuclear model calculations on the excitation functions ofnatCe(3He,xn) and141Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide140Nd

Experimental measurements and nuclear model calculations on the excitation functions ofnatCe(3He,xn) and141Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide140Nd

Photoproduction of a 100-μsec Isomer and its Tentative Assignment toHg201

Figs. 1 - 30 (p, gamma) - (p, 2n)

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Experimental measurements and nuclear model calculations on the excitation functions of^natCe(³He,xn) and¹⁴¹Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide¹⁴⁰Nd

Experimental measurements and nuclear model calculations on the excitation functions of^natCe(³He,xn) and¹⁴¹Pr(p,xn) reactions with special reference to production of the therapeutic radionuclide¹⁴⁰Nd