2017
DOI: 10.1016/j.apradiso.2017.07.001
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Determination of photon emission probability for the main gamma ray and half-life measurements of 64Cu

Abstract: The National Institute of Standards and Technology (NIST) performed new standardization measurements for 64Cu. As part of this work the photon emission probabilities for the main gamma-rays and the half-life were determined using several high purity germanium (HPGe) detectors. Half-life determinations were also carried out with a NaI(Tl) well counter and two pressurized ionization chambers.

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Cited by 7 publications
(10 citation statements)
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“…Two ampoules were measured for photon-emitting impurities in each of the experiments. In addition, the 2015 measurements were used in a half-life determination, while the 2016 measurements focused on determining the emission probability of the main gamma-ray line (Pibida et al, 2017). Activities were calculated based on the 1346 keV gamma-ray peak and the 2011 DDEP evaluated emission probability (Bé et al, 2011).…”
Section: Methodsmentioning
confidence: 99%
“…Two ampoules were measured for photon-emitting impurities in each of the experiments. In addition, the 2015 measurements were used in a half-life determination, while the 2016 measurements focused on determining the emission probability of the main gamma-ray line (Pibida et al, 2017). Activities were calculated based on the 1346 keV gamma-ray peak and the 2011 DDEP evaluated emission probability (Bé et al, 2011).…”
Section: Methodsmentioning
confidence: 99%
“…We carried out measurements over a period of 110 weeks (≈ 2.8 half-lives). The data were acquired and analyzed in a manner consistent with other recent half-life determinations at the National Institute of Standards and Technology (NIST; Bergeron and Fitzgerald, 2015; Pibida et al, 2017), looking beyond fit uncertainties to realize conservative but realistic final uncertainties. Finally, we consider our determinations in the context of earlier work, reporting a new evaluation of the 68 Ge half-life, T 1/2 = 271.05(8) d. 1…”
Section: Introductionmentioning
confidence: 99%
“…Nesta área há também um contínuo desenvolvimento de novos radionuclídeos e radiofármacos, seja para diagnóstico como para tratamento, requerendo assim o desenvolvimento de métodos de padronização, de medidas de padrões com boa exatidão especialmente no caso de novos radionuclídeos de uso em medicina nuclear, bem como à necessidade crescente de reavaliações de dados nucleares para a melhoria das incertezas por meio de medidas absolutas para garantir a confiabilidade das medidas (MOURA, 1969;PIBIDA et al, 2017;BERGERON et al, 2018). Em geral, os radionuclídeos de meia vida curta tanto os emissores de radiação gama e X, como os emissores de partículas β -, pósitrons, captura eletrônica, partículas alfa e elétrons Auger, são os isótopos selecionados para diversas aplicações na área médica, em particular na radioterapia interna e em diagnóstico por imagem PET (Positron Emission Tomography) e SPECT (Single Photon Emission Computed Tomography).…”
Section: Introductionunclassified
“…A metodologia que vem sendo utilizada com sucesso por diversos laboratórios para medidas de padronização primária de radionuclídeos é utilizando um contador  em geometria 4. (CAMPION, 1959;BAERG, 1966BAERG, , 1967MOURA, 1969;KAWADA, 1986;SAHAGIA et.al., 2012;PIBIDA et al, 2017). Esta técnica consiste em realizar medidas com detectores de radiação beta em geometria 4 em conjunto com detectores gama, (sistema  registrando as taxas de contagens de eventos correlacionados (ou coincidentes) da radiação gama com a partícula beta associada (coincidência, registrando uma única contagem (de coincidência).…”
Section: Introductionunclassified
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