Experimental study of the excitation functions of proton induced nuclear reactions on (167)Er for production of medically relevant (167)Tm.
Identifieur interne : 000511 ( PubMed/Corpus ); précédent : 000510; suivant : 000512Experimental study of the excitation functions of proton induced nuclear reactions on (167)Er for production of medically relevant (167)Tm.
Auteurs : F. Tárkányi ; A. Hermanne ; S. Takács ; B. Király ; I. Spahn ; A V IgnatyukSource :
- Applied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine [ 1872-9800 ] ; 2010.
English descriptors
- KwdEn :
- MESH :
- chemical , chemical synthesis : Radiopharmaceuticals.
- chemical , chemistry : Erbium, Isotopes, Thulium.
- chemical , radiation effects : Erbium, Isotopes, Radiopharmaceuticals, Thulium.
- Computer Simulation, Models, Chemical, Photons, Radioisotopes.
Abstract
(167)Tm (T(1/2)=9.25d) is a candidate radioisotope for medical therapy and diagnostics due to its Auger-electron and low-energy X- and gamma-ray emission. Excitation functions of the (167)Er(p,n)(167)Tm reaction and (168)Er(p,n)(168)Tm, (167)Er(p,2n)(166)Tm, (166)Er(p,2n)(165)Tm disturbing reactions were measured up to 15MeV by using the stacked foil irradiation technique and gamma-ray spectroscopy. The measured excitation functions agree well with the results of ALICE-IPPE, EMPIRE-II and TALYS nuclear reaction model codes. The thick target yield of (167)Tm in the 15-8MeV energy range is 6.9MBq/microAh. A short comparison of charged particle production routes of (167)Tm is given.
DOI: 10.1016/j.apradiso.2009.10.043
PubMed: 19932028
Links to Exploration step
pubmed:19932028Le document en format XML
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<author><name sortKey="Hermanne, A" sort="Hermanne, A" uniqKey="Hermanne A" first="A" last="Hermanne">A. Hermanne</name>
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<author><name sortKey="Takacs, S" sort="Takacs, S" uniqKey="Takacs S" first="S" last="Takács">S. Takács</name>
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<author><name sortKey="Kiraly, B" sort="Kiraly, B" uniqKey="Kiraly B" first="B" last="Király">B. Király</name>
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<author><name sortKey="Spahn, I" sort="Spahn, I" uniqKey="Spahn I" first="I" last="Spahn">I. Spahn</name>
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<author><name sortKey="Ignatyuk, A V" sort="Ignatyuk, A V" uniqKey="Ignatyuk A" first="A V" last="Ignatyuk">A V Ignatyuk</name>
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<sourceDesc><biblStruct><analytic><title xml:lang="en">Experimental study of the excitation functions of proton induced nuclear reactions on (167)Er for production of medically relevant (167)Tm.</title>
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<front><div type="abstract" xml:lang="en">(167)Tm (T(1/2)=9.25d) is a candidate radioisotope for medical therapy and diagnostics due to its Auger-electron and low-energy X- and gamma-ray emission. Excitation functions of the (167)Er(p,n)(167)Tm reaction and (168)Er(p,n)(168)Tm, (167)Er(p,2n)(166)Tm, (166)Er(p,2n)(165)Tm disturbing reactions were measured up to 15MeV by using the stacked foil irradiation technique and gamma-ray spectroscopy. The measured excitation functions agree well with the results of ALICE-IPPE, EMPIRE-II and TALYS nuclear reaction model codes. The thick target yield of (167)Tm in the 15-8MeV energy range is 6.9MBq/microAh. A short comparison of charged particle production routes of (167)Tm is given.</div>
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<Abstract><AbstractText>(167)Tm (T(1/2)=9.25d) is a candidate radioisotope for medical therapy and diagnostics due to its Auger-electron and low-energy X- and gamma-ray emission. Excitation functions of the (167)Er(p,n)(167)Tm reaction and (168)Er(p,n)(168)Tm, (167)Er(p,2n)(166)Tm, (166)Er(p,2n)(165)Tm disturbing reactions were measured up to 15MeV by using the stacked foil irradiation technique and gamma-ray spectroscopy. The measured excitation functions agree well with the results of ALICE-IPPE, EMPIRE-II and TALYS nuclear reaction model codes. The thick target yield of (167)Tm in the 15-8MeV energy range is 6.9MBq/microAh. A short comparison of charged particle production routes of (167)Tm is given.</AbstractText>
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