Add to ORKGThe flow rate of coolant and the particle beam current are important when high beam current irradiations are intended for production of radionuclides. The beam current on natCu target to produce 63Zn via the natCu(p,n)63Zn reaction was investigated and the beam current was obtained more than 350 μA that is the maximum allowed beam current used for producing medical radioisotopes in Nuclear Science and Technology Research Institute of Iran. In addition, the temperature distribution on the target under the different cooling water flow rates has been simulated based on finite element analysis program. The results show that the cooling water flow rate can be brought down to 1.5 L/min without the risk of melting of target material and boiling w...
The 63Zn was produced by16.8 MeV proton irradiation of natural copper. Thick target yield for 63Zn i...
In this article, thermal modeling techniques are used to simulate ISOL targets irradiated with high ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Nuclear Engineering, 2002.Includes ...
Regarding the low thermal conductivity of natTe element, the provision of an effective cooling syste...
Excitation functions and theoretical yields via charge particle induced reactions were evaluated usi...
64Cu is a favorable radionuclide in nuclear medicine applications because of its unique characterist...
Abstract Natural Cu target was irradiated with proton beam in the energy range of 15 to 30 MeV at a ...
The radionuclides (CU)-C-64 (T-1/2 = 12.7 h) and Cu-67 (T-1/2 = 61.9h) are useful in internal therap...
In this article, thermal modeling techniques are used to simulate ISOL targets irradiated with high ...
The excitation function of the natZn(p,x)62Zn nuclear process was measured by the stacked-foil techn...
The NUMEN experiment aims to study Double Charge Exchange nuclear reactions at low energy as complem...
The potential for production of the medically relevant 64Cu has been investigated by proton irradiat...
64Cu is one of the most beneficial radionuclide that can be used as a theranostic agent in Positron ...
The production target is the core of the facilities aimed at the production of Radioactive Ion Beams...
Neutral beam injection heating system is one of the main heating methods to improve the operating pa...
The 63Zn was produced by16.8 MeV proton irradiation of natural copper. Thick target yield for 63Zn i...
In this article, thermal modeling techniques are used to simulate ISOL targets irradiated with high ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Nuclear Engineering, 2002.Includes ...
Regarding the low thermal conductivity of natTe element, the provision of an effective cooling syste...
Excitation functions and theoretical yields via charge particle induced reactions were evaluated usi...
64Cu is a favorable radionuclide in nuclear medicine applications because of its unique characterist...
Abstract Natural Cu target was irradiated with proton beam in the energy range of 15 to 30 MeV at a ...
The radionuclides (CU)-C-64 (T-1/2 = 12.7 h) and Cu-67 (T-1/2 = 61.9h) are useful in internal therap...
In this article, thermal modeling techniques are used to simulate ISOL targets irradiated with high ...
The excitation function of the natZn(p,x)62Zn nuclear process was measured by the stacked-foil techn...
The NUMEN experiment aims to study Double Charge Exchange nuclear reactions at low energy as complem...
The potential for production of the medically relevant 64Cu has been investigated by proton irradiat...
64Cu is one of the most beneficial radionuclide that can be used as a theranostic agent in Positron ...
The production target is the core of the facilities aimed at the production of Radioactive Ion Beams...
Neutral beam injection heating system is one of the main heating methods to improve the operating pa...
The 63Zn was produced by16.8 MeV proton irradiation of natural copper. Thick target yield for 63Zn i...
In this article, thermal modeling techniques are used to simulate ISOL targets irradiated with high ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Nuclear Engineering, 2002.Includes ...