Add to ORKGRadioactive isotopes are widely used in medicine for diagnostic and therapeutic procedures.The most commonly used isotope is technetium-99m (99mTc), a product of β-decay of a molybdenum-99 (99Mo) nucleus, which is currently commercially produced using nuclear reactors. An alternative method of medical grade radioisotope production is required to sustain the demand as nuclear reactors are decommissioned. The proposed method of isotope production which will be discussed in this thesis is to use fast neutrons (∼14.1 MeV) to induce an 102Ru(n,α)99Mo reaction. The Nuclear Science Laboratory (NSL) at Simon Fraser University (SFU) has a Deuterium-Tritium (D-T) Thermo Fisher P385 Neutron Generator (NG) which will be used for the neutron production,...
Yields of neutron-rich isotopes produced by fast neutron induced fission of 238 U were measured at t...
The developments of nuclear medicine lead to an increasing demand for the production of radioisotope...
A new process was developed to recover high specific activity (no carrier added) 99Mo from electron-...
AbstractWe proposed aprototype facility for the generation of radioisotopes with accelerator neutron...
One of the fastest growing branches of medicine currently is nuclear medicine. Radioactive isotope p...
99mTc is a very useful radioisotope in medical diagnostic procedure. 99mTc is produced from 99Mo dec...
The cross section of the 92,94Mo(α,n)95,97Ru reactions were measured recently at MTA Atomki using th...
The primary objective of this research was to provide a validated model of Global Medical Isotope Sy...
A plan of an advanced fusion neutron source (A-FNS) by using d-Li reaction is in progress at Rokkash...
Neutron scattering experiments provide direct access to the forces experienced by nucleons in the nu...
Technetium-99m (T1/2= 6 h) is the most commonly used radioisotope in nuclear medicine accounting for...
Using neutrons generated by d-Li reaction in the A-FNS, we analyzed radionuclidic purity of techneti...
The future of nuclear medicine would appear to be the paradigm of personalized medicine — targeted r...
99mTc with a 6 hour half-life is one of the most important medical isotopes used for the Single-Phot...
The use of subcritical aqueous homogenous reactors driven by accelerators presents an attractive alt...
Yields of neutron-rich isotopes produced by fast neutron induced fission of 238 U were measured at t...
The developments of nuclear medicine lead to an increasing demand for the production of radioisotope...
A new process was developed to recover high specific activity (no carrier added) 99Mo from electron-...
AbstractWe proposed aprototype facility for the generation of radioisotopes with accelerator neutron...
One of the fastest growing branches of medicine currently is nuclear medicine. Radioactive isotope p...
99mTc is a very useful radioisotope in medical diagnostic procedure. 99mTc is produced from 99Mo dec...
The cross section of the 92,94Mo(α,n)95,97Ru reactions were measured recently at MTA Atomki using th...
The primary objective of this research was to provide a validated model of Global Medical Isotope Sy...
A plan of an advanced fusion neutron source (A-FNS) by using d-Li reaction is in progress at Rokkash...
Neutron scattering experiments provide direct access to the forces experienced by nucleons in the nu...
Technetium-99m (T1/2= 6 h) is the most commonly used radioisotope in nuclear medicine accounting for...
Using neutrons generated by d-Li reaction in the A-FNS, we analyzed radionuclidic purity of techneti...
The future of nuclear medicine would appear to be the paradigm of personalized medicine — targeted r...
99mTc with a 6 hour half-life is one of the most important medical isotopes used for the Single-Phot...
The use of subcritical aqueous homogenous reactors driven by accelerators presents an attractive alt...
Yields of neutron-rich isotopes produced by fast neutron induced fission of 238 U were measured at t...
The developments of nuclear medicine lead to an increasing demand for the production of radioisotope...
A new process was developed to recover high specific activity (no carrier added) 99Mo from electron-...