Add to ORKGIn this paper the study of the photonuclear interaction induced by 10MeV electron beam is an approach to generate neutron for producing Mo-99. Since the results are depended on the target material, the calculations are performed for the targets in a simple geometry and made of high z elements of Pb, Ta and W using MCNPX code. The results show the obtained neutron flux can reach up to 1012n/cm2/s with the average energies of 0.9MeV, 0.4MeV and 0.9MeV for these three elements respectively. The optimization of the target by alloying with Beryllium can raise the results up to one order of magnitude. ABSTRA
Background: the gamma-emitting radionuclide Technetium-99m (99mTc) is still the workhorse of Single ...
The subject of this paper is to explore the possibility to obtain 99mTc from activation of 98Mo, usi...
The medical isotope Molybdenum-99 is presently used for 80-85% of all nuclear medicine procedures an...
In this paper the study of the photonuclear interaction induced by 10MeV electron beam is an approac...
Abstract- In this paper MCNP4C code has been used to simulate of the photonuclear interaction induce...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
A new \u201cone-stage\u201d approach for production of 99Mo and other radioisotopes by means of an e...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
99mTc is the usual medical isotope for imaging in nuclear medicine. The use of accelerators to produ...
An advanced fusion neutron source (A-FNS) is under planning at Rokkasyo in Japan. The A-FNS has an a...
The purpose of the work is to study the possible use of existing high-power electron accelerators fo...
A plan of an advanced fusion neutron source (A-FNS) by using d-Li reaction is in progress at Rokkash...
At present Technetium-99m provides up to 90 % isotopic products used in nuclear medicine [1]. His ge...
High Energy Transport Code calculations were performed for 800 MeV protons incident on thin targets ...
The possibility of organizing neutron therapy with a photoneutron beam produced by the electron acce...
Background: the gamma-emitting radionuclide Technetium-99m (99mTc) is still the workhorse of Single ...
The subject of this paper is to explore the possibility to obtain 99mTc from activation of 98Mo, usi...
The medical isotope Molybdenum-99 is presently used for 80-85% of all nuclear medicine procedures an...
In this paper the study of the photonuclear interaction induced by 10MeV electron beam is an approac...
Abstract- In this paper MCNP4C code has been used to simulate of the photonuclear interaction induce...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
A new \u201cone-stage\u201d approach for production of 99Mo and other radioisotopes by means of an e...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
99mTc is the usual medical isotope for imaging in nuclear medicine. The use of accelerators to produ...
An advanced fusion neutron source (A-FNS) is under planning at Rokkasyo in Japan. The A-FNS has an a...
The purpose of the work is to study the possible use of existing high-power electron accelerators fo...
A plan of an advanced fusion neutron source (A-FNS) by using d-Li reaction is in progress at Rokkash...
At present Technetium-99m provides up to 90 % isotopic products used in nuclear medicine [1]. His ge...
High Energy Transport Code calculations were performed for 800 MeV protons incident on thin targets ...
The possibility of organizing neutron therapy with a photoneutron beam produced by the electron acce...
Background: the gamma-emitting radionuclide Technetium-99m (99mTc) is still the workhorse of Single ...
The subject of this paper is to explore the possibility to obtain 99mTc from activation of 98Mo, usi...
The medical isotope Molybdenum-99 is presently used for 80-85% of all nuclear medicine procedures an...