Auger yields from the decays of 71Ge, 99mTc, 111In and 123-125I have been calculated using a Monte Carlo model of the Auger cascade that has been developed at the ANU. In addition, progress to improve the input data of the model has been made with the Multiconfiguration Dirac-Hartree-Fock method
Understanding the strong radiotoxicity of DNA-incorporated Auger electron-emitting nuclides requires...
One of the main application fields of nuclear technology is medicine and radioisotopes are used in m...
V International Conference on Application of Physics in Medicine and Biology (Trieste Medical Physic...
Auger emitting radioisotopes are of great interest in targeted radiotherapy because, once internalis...
To benchmark a Monte Carlo model of the Auger cascade that has been developed at the Australian Nat...
Auger electrons emitted after nuclear decay have potential application in targeted cancer therapy. F...
A localized source of electrons can be provided by radioisotopes that emit Auger electrons through a...
Auger-electron (AE) emitting radionuclides could be exploited for therapeutic purposes due to the hi...
Auger-electron-emitting radioisotopes provide a unique tool that enables the targeted irradiation of...
Auger electrons emitted in nuclear decay offer a unique tool to treat cancer cells at the scale of a...
The main goal of this study is the production investigation of the 111In as a diagnostic and mighty ...
Copyright © 2012 B. Q. Lee et al. This is an open access article distributed under the Creative Comm...
Auger-emitting radionuclides have great potential in cancer treatment as low-energy Auger electrons ...
Auger nuclides have the particular importance in nuclear medicine because of their radiotoxicities e...
Objective Radionuclide therapy with low-energy auger electron emitters may provide high antitumor ef...
Understanding the strong radiotoxicity of DNA-incorporated Auger electron-emitting nuclides requires...
One of the main application fields of nuclear technology is medicine and radioisotopes are used in m...
V International Conference on Application of Physics in Medicine and Biology (Trieste Medical Physic...
Auger emitting radioisotopes are of great interest in targeted radiotherapy because, once internalis...
To benchmark a Monte Carlo model of the Auger cascade that has been developed at the Australian Nat...
Auger electrons emitted after nuclear decay have potential application in targeted cancer therapy. F...
A localized source of electrons can be provided by radioisotopes that emit Auger electrons through a...
Auger-electron (AE) emitting radionuclides could be exploited for therapeutic purposes due to the hi...
Auger-electron-emitting radioisotopes provide a unique tool that enables the targeted irradiation of...
Auger electrons emitted in nuclear decay offer a unique tool to treat cancer cells at the scale of a...
The main goal of this study is the production investigation of the 111In as a diagnostic and mighty ...
Copyright © 2012 B. Q. Lee et al. This is an open access article distributed under the Creative Comm...
Auger-emitting radionuclides have great potential in cancer treatment as low-energy Auger electrons ...
Auger nuclides have the particular importance in nuclear medicine because of their radiotoxicities e...
Objective Radionuclide therapy with low-energy auger electron emitters may provide high antitumor ef...
Understanding the strong radiotoxicity of DNA-incorporated Auger electron-emitting nuclides requires...
One of the main application fields of nuclear technology is medicine and radioisotopes are used in m...
V International Conference on Application of Physics in Medicine and Biology (Trieste Medical Physic...
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