Abstract
An intelligent computer program has been developed to obtain the mathematical formulae to compute the probabilities and reduced energies of the different atomic rearrangement pathways following electron-capture decay. Creation and annihilation operators for Auger and X processes have been introduced. Taking into account the symmetries associated with each process, 262 different pathways were obtained. This model allows us to obtain the influence of the M-electron-capture in the counting efficiency when the atomic number of the nuclide is high.
Citation Formats
Casas Galiano, G, and Grau Malonda, A.
Probabilities and energies to obtain the counting efficiency of electron-capture nuclides, KLMN model; Probabilidades y energas de reestructuracin atmica subsiguientes a la captura electrnica, modelo KLMN.
Spain: N. p.,
1994.
Web.
Casas Galiano, G, & Grau Malonda, A.
Probabilities and energies to obtain the counting efficiency of electron-capture nuclides, KLMN model; Probabilidades y energas de reestructuracin atmica subsiguientes a la captura electrnica, modelo KLMN.
Spain.
Casas Galiano, G, and Grau Malonda, A.
1994.
"Probabilities and energies to obtain the counting efficiency of electron-capture nuclides, KLMN model; Probabilidades y energas de reestructuracin atmica subsiguientes a la captura electrnica, modelo KLMN."
Spain.
@misc{etde_10104720,
title = {Probabilities and energies to obtain the counting efficiency of electron-capture nuclides, KLMN model; Probabilidades y energas de reestructuracin atmica subsiguientes a la captura electrnica, modelo KLMN}
author = {Casas Galiano, G, and Grau Malonda, A}
abstractNote = {An intelligent computer program has been developed to obtain the mathematical formulae to compute the probabilities and reduced energies of the different atomic rearrangement pathways following electron-capture decay. Creation and annihilation operators for Auger and X processes have been introduced. Taking into account the symmetries associated with each process, 262 different pathways were obtained. This model allows us to obtain the influence of the M-electron-capture in the counting efficiency when the atomic number of the nuclide is high.}
place = {Spain}
year = {1994}
month = {Dec}
}
title = {Probabilities and energies to obtain the counting efficiency of electron-capture nuclides, KLMN model; Probabilidades y energas de reestructuracin atmica subsiguientes a la captura electrnica, modelo KLMN}
author = {Casas Galiano, G, and Grau Malonda, A}
abstractNote = {An intelligent computer program has been developed to obtain the mathematical formulae to compute the probabilities and reduced energies of the different atomic rearrangement pathways following electron-capture decay. Creation and annihilation operators for Auger and X processes have been introduced. Taking into account the symmetries associated with each process, 262 different pathways were obtained. This model allows us to obtain the influence of the M-electron-capture in the counting efficiency when the atomic number of the nuclide is high.}
place = {Spain}
year = {1994}
month = {Dec}
}