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dc.contributor.authorFonseca, T.C.F.-
dc.contributor.authorMendes, Bruno Melo-
dc.contributor.authorLacerda, Marco Aurelio de Souza-
dc.contributor.authorSilva, L.A.C.-
dc.contributor.authorPaixão, L.-
dc.contributor.authorBastos, F.M.-
dc.contributor.authorRamirez, J.V.-
dc.contributor.authorJunior, J.P. R.-
dc.date.accessioned2018-02-05T11:53:04Z-
dc.date.available2018-02-05T11:53:04Z-
dc.date.issued2017-
dc.identifier.citationFONSECA, T. C. F. et. al. MCMEG: Simulations of both PDD and TPR for 6 MV LINAC photon beam using different MC codes. Radiation Physics and Chemistry. v. 140, p. 386-391, 2017.pt_BR
dc.identifier.issn0969- 806Xpt_BR
dc.identifier.urihttp://www.repositorio.cdtn.br:8080/jspui/handle/123456789/1273-
dc.description.abstractThe Monte Carlo Modelling Expert Group (MCMEG) is an expert network specializing in Monte Carlo radiation transport and the modelling and simulation applied to the radiation protection and dosimetry research field. For the first inter-comparison task the group launched an exercise to model and simulate a 6 MV LINAC photon beam using the Monte Carlo codes available within their laboratories and validate their simulated results by comparing them with experimental measurements carried out in the National Cancer Institute (INCA) in Rio de Janeiro, Brazil. The experimental measurements were performed using an ionization chamber with calibration traceable to a Secondary Standard Dosimetry Laboratory (SSDL). The detector was immersed in a water phantom at different depths and was irradiated with a radiation field size of 10×10 cm2. This exposure setup was used to determine the dosimetric parameters Percentage Depth Dose (PDD) and Tissue Phantom Ratio (TPR). The validation process compares the MC calculated results to the experimental measured PDD20,10 and TPR20,10. Simulations were performed reproducing the experimental TPR20,10 quality index which provides a satisfactory description of both the PDD curve and the transverse profiles at the two depths measured. This paper reports in detail the modelling process using MCNPx, MCNP6, EGSnrc and Penelope Monte Carlo codes, the source and tally descriptions, the validation processes and the results.pt_BR
dc.format.extentp. 386-391pt_BR
dc.language.isoen_USpt_BR
dc.rightsLpt_BR
dc.subjectMonte Carlo Modelling Expert Group photon beampt_BR
dc.subjectSimulationpt_BR
dc.subject6 MV linac photon beampt_BR
dc.titleMCMEG: simulations of both PDD and TPR for 6MV LINAC photon beam using different MC codes - DOI: 10.1016pt_BR
dc.typeArtigo Periódicopt_BR
dc.coverageIpt_BR
dc.creator.affiliationCentro de Desenvolvimento da Tecnologia Nuclear, CDTN, Belo horizonte, MG, Brasilpt_BR
dc.creator.affiliationCentro de Desenvolvimento da Tecnologia Nuclear, CDTN, Belo horizonte, MG, Brasilpt_BR
dc.creator.affiliationCentro de Desenvolvimento da Tecnologia Nuclear, CDTN, Belo horizonte, MG, Brasilpt_BR
dc.creator.affiliationCentro de Desenvolvimento da Tecnologia Nuclear, CDTN, Belo horizonte, MG, Brasilpt_BR
dc.creator.affiliationUniversidade Federal de Minas Gerais, UFMG, Belo Horizonte, MG, Brasilpt_BR
dc.creator.affiliationInstituto Nacional de Câncer José de Alencar Gomes, INCA, Rio de Janeiro, RJ, Brasilpt_BR
dc.creator.affiliationUniversidad Nacional de San Agustin de Arequipa, Arequipa, Perúpt_BR
dc.creator.affiliationUniversidade Federal do Rio de Janeiro, UFRJ, Rio de Janeiro, RJ, Brasilpt_BR
dc.identifier.vol140pt_BR
dc.title.journalRadiation Physics and chemistrypt_BR
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