Cyclotron production of <sup>85</sup>Sr by proton irradiation of <sup>nat</sup>Rb

Sadeghi, Mahdi; Alipoor, Zahra; Aslani, Gholamreza

doi:10.3139/124.110167

Kerntechnik

2011

DOI: 10.3139/124.110167

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Cyclotron production of ⁸⁵Sr by proton irradiation of ^natRb

Mahdi Sadeghi

Zahra Alipoor

Gholamreza Aslani

Abstract: Excitation functions for protons induced on 85/natRb targets that lead to the production of 85Sr radioisotopes using TALYS 1.0 and ALICE/ASH codes were calculated. Rubidium chloride deposition on copper substrate was carried out via sedimentation method in order to produce Strontium-85. 520 mg RbCl, 208 mg ethyl cellulose (EC) and 4 mL acetone were used to prepare a layer of enriched rubidium chloride of 11.69 cm2 area and 62.2 mg · cm−2 thickness. The deposited target was irradiated at 20 A current and 15 MeV… Show more

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“…Helium-3 and proton bombardment of selenium and bromine isotopes has yielded valuable cross-section data for the production of bromine-75, 12 -76, 12 and -77 13 as well as krypton-77. 13 A detailed investigation has been made of the production 14 of strontium-85 from the proton irradiation of natural rubidium, whilst the decay of a heavier isotope of strontium can be used in a cation exchange generator 15 for yttrium-90 [ 90 Sr(b À ) 90 Y]. The use of both cyclotrons 16 and linear accelerators 17 for the production of ytttrium-86 has been described.…”

mentioning

confidence: 99%

Radiochemistry

Urch

2012

Annu. Rep. Prog. Chem., Sect. A: Inorg. Chem.

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mentioning

confidence: 99%

Radiochemistry

Urch

2012

Annu. Rep. Prog. Chem., Sect. A: Inorg. Chem.

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A benchmark study on uncertainty of ALICE ASH 1.0, TALYS 1.0 and MCNPX 2.6 codes to estimate production yield of accelerator-based radioisotopes

et al. 2013

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Tenreiro, C (Tenreiro, Claudio); Gholamzadeh, Z (Gholamzadeh, Zohreh). Talca Univ, Dept Phys, Talca, Chile.Radioisotopes find very important applications in various sectors of economic significance and their production is an important activity of many national programmes. Some deterministic codes such as ALICE ASH 1.0 and TALYS 1.0 are extensively used to calculate the yield of a radioisotope via numerical integral over the calculated cross-sections. MCNPX 2.6 stochastic code is more interesting among the other Monte Carlo-based computational codes for accessibility of different intranuclear cascade physical models to calculate the yield using experiment-based cross-sections. A benchmark study has been proposed to determine the codes' uncertainty in such calculations. Cd-109, Y-86 and Sr-85 production yields by proton irradiation of silver, rubidium chloride and strontium carbonate targets are studied. Cd-109, Y-86 and Sr-85 cross-sections are calculated using ALICE ASH 1.0 and TALYS 1.0 codes. The evaluated yields are compared with the experimental yields. The targets are modelled using MCNPX 2.6 code. The production yields are calculated using the available physical models of the code. The study shows acceptable relative discrepancies between theoretical and experimental results. Minimum relative discrepancy between experimental and theoretical yields is achievable using ISABEL intranuclear model in most of the targets simulated by MCNPX 2.6. The stochastic code utilization can be suggested for calculating Cd-109, Y-86 and Sr-85 production yields. It results in more valid data than TALYS 1.0 and ALICE ASH 1.0 in noticeably less average relative discrepancies

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Nuclear aspects and cyclotron production of the positron emitter ⁵⁵Co

Talebi

Kakavand

Mirzaii³

2013

Kerntechnik

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The radionuclide 55Co (T1/2 = 17.5 h, Eβ+ = 1.5 MeV, 76% β+ decay) is an important β+ emitting radioisotope. For production of 55Co via natFe(p, xn) 55Co reaction, an iron layer was deposited on a copper substrate by means of electro-deposition method which could be irradiated by 29.5 MeV protons at 100 μA. No-carrier-added (n.c.a.) 55Co was separated from the iron target via an anion exchange column (Dowex 1 · 8). The achieved production yield was 31.25 MBq/μAh. Also, excitation functions for the 55Co radionuclide via natFe(p, xn)55Co, 56Fe(p, 2n)55Co and 54Fe(d, n)55Co reactions were calculated by TALYS-1.4 code and TENDL-2011 database and compared with previous published data.

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Cyclotron production of ⁸⁵Sr by proton irradiation of ^natRb

Cited by 3 publications

References 20 publications

Radiochemistry

Radiochemistry

A benchmark study on uncertainty of ALICE ASH 1.0, TALYS 1.0 and MCNPX 2.6 codes to estimate production yield of accelerator-based radioisotopes

Nuclear aspects and cyclotron production of the positron emitter ⁵⁵Co

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Cyclotron production of 85Sr by proton irradiation of natRb

Cited by 3 publications

References 20 publications

Radiochemistry

Radiochemistry

A benchmark study on uncertainty of ALICE ASH 1.0, TALYS 1.0 and MCNPX 2.6 codes to estimate production yield of accelerator-based radioisotopes

Nuclear aspects and cyclotron production of the positron emitter 55Co

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Product

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About

Cyclotron production of ⁸⁵Sr by proton irradiation of ^natRb

Nuclear aspects and cyclotron production of the positron emitter ⁵⁵Co