SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation
Purpose: To determine the initial electron beam parameters those are mean energy and its full width at half maximum of 6 MeV electron beam from Varian Clinac 2100C and to calculate output factors. Method and Materials: Measurements of the central‐axis and off‐axis dose distributions were made using...
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th-mahidol.273272018-09-13T14:08:30Z SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation P. Dechsupa C. Tannanonta N. Phaisangittisakul Mahidol University Chulalongkorn University Biochemistry, Genetics and Molecular Biology Medicine Purpose: To determine the initial electron beam parameters those are mean energy and its full width at half maximum of 6 MeV electron beam from Varian Clinac 2100C and to calculate output factors. Method and Materials: Measurements of the central‐axis and off‐axis dose distributions were made using diode detector in a 3D water phantom. The output factors were measured in a 2D water phantom using ROOS chamber. In simulation, the EGSnrc code was used to simulate the linac treatment head and calculated dose distribution. The parameters selection procedure was to adjusting the initial electron beam parameter until the simulated data agree with measured data. After the appropriate initial beam parameters are achieved, these parameters were used to calculated output factors and compared to the measured data. Results: The appropriate mean energy and its full width at half maximum are 7.2 MeV and 4.0 mm. For the output factors, it was found that the difference between the measured and the calculated data were within ±2% in most of the investigated field sizes except for the field sizes of 6×6 and 9.5×4.2 cm2. The percent difference for field sizes 6×6 and 9.5×4.2 cm2 are 2.05% and 2.68% respectively. The error may be due to the inaccuracy in model of scattering foil and cutout. Conclusions: The results have shown that the Monte Carlo simulation can be used to calculate electron beam data accurately at the 2% level in the most cases for a limited set of data (energy, field size, SSD). In order to apply this model to fully calculated dose distribution for electron mode, further investigation is required in a wide range of configurations such as high energy and irregular field size. © 2009, American Association of Physicists in Medicine. All rights reserved. 2018-09-13T06:28:14Z 2018-09-13T06:28:14Z 2009-01-01 Conference Paper Medical Physics. Vol.36, No.6 (2009), 2623 10.1118/1.3181920 00942405 2-s2.0-85024822728 https://repository.li.mahidol.ac.th/handle/123456789/27327 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85024822728&origin=inward |
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Biochemistry, Genetics and Molecular Biology Medicine P. Dechsupa C. Tannanonta N. Phaisangittisakul SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation |
| description |
Purpose: To determine the initial electron beam parameters those are mean energy and its full width at half maximum of 6 MeV electron beam from Varian Clinac 2100C and to calculate output factors. Method and Materials: Measurements of the central‐axis and off‐axis dose distributions were made using diode detector in a 3D water phantom. The output factors were measured in a 2D water phantom using ROOS chamber. In simulation, the EGSnrc code was used to simulate the linac treatment head and calculated dose distribution. The parameters selection procedure was to adjusting the initial electron beam parameter until the simulated data agree with measured data. After the appropriate initial beam parameters are achieved, these parameters were used to calculated output factors and compared to the measured data. Results: The appropriate mean energy and its full width at half maximum are 7.2 MeV and 4.0 mm. For the output factors, it was found that the difference between the measured and the calculated data were within ±2% in most of the investigated field sizes except for the field sizes of 6×6 and 9.5×4.2 cm2. The percent difference for field sizes 6×6 and 9.5×4.2 cm2 are 2.05% and 2.68% respectively. The error may be due to the inaccuracy in model of scattering foil and cutout. Conclusions: The results have shown that the Monte Carlo simulation can be used to calculate electron beam data accurately at the 2% level in the most cases for a limited set of data (energy, field size, SSD). In order to apply this model to fully calculated dose distribution for electron mode, further investigation is required in a wide range of configurations such as high energy and irregular field size. © 2009, American Association of Physicists in Medicine. All rights reserved. |
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Mahidol University |
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Mahidol University P. Dechsupa C. Tannanonta N. Phaisangittisakul |
| format |
Conference or Workshop Item |
| author |
P. Dechsupa C. Tannanonta N. Phaisangittisakul |
| author_sort |
P. Dechsupa |
| title |
SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation |
| title_short |
SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation |
| title_full |
SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation |
| title_fullStr |
SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation |
| title_full_unstemmed |
SU‐FF‐T‐438: Modeling 6 MeV Electron Beam From Medical Linear Accelerator Using Monte Carlo Simulation |
| title_sort |
su‐ff‐t‐438: modeling 6 mev electron beam from medical linear accelerator using monte carlo simulation |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/27327 |
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1763495631329951744 |