A Monte Carlo approach to electron contamination sources in the Saturne-25 and -41

The various components of the accelerator treatment head act as sources of contaminating electrons. The presence of contamination electrons increases the surface dose, which deteriorates the skin-sparing effect. The present study examines the sources of this 'contamination', the influence...

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Bibliographic Details
Published in:Physics in medicine & biology 2001-09, Vol.46 (9), p.2435-2446
Main Authors: Malataras, G, Kappas, C, Lovelock, D M J
Format: Article
Language:English
Subjects:
Air
Biological and medical sciences
Electrons
Medical sciences
Models, Theoretical
Monte Carlo Method
Particle Accelerators - instrumentation
Photons
Radiation Dosage
Radiotherapy, Conformal - instrumentation
Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects)
Scattering, Radiation
Technology. Biomaterials. Equipments. Material. Instrumentation
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Summary:The various components of the accelerator treatment head act as sources of contaminating electrons. The presence of contamination electrons increases the surface dose, which deteriorates the skin-sparing effect. The present study examines the sources of this 'contamination', the influence on the surface dose and the shape of the build-up curve. The Monte Carlo simulation of two linear accelerators, Saturne-25 and -41, allowed us to study the influence of electron contamination in various therapeutic energies and in different geometries. The Saturne-25 and -41 cover a wide range of therapeutic energies with nominal energies 12/23 MV and 6/15 MV, respectively. The analysis of the results shows that at a source-to-surface distance of 100 cm and a wide opening of the collimators, the main sources of contaminating electrons are the flattening filter and the air below it. The contribution of the secondary contamination electrons on the surface dose is 16% for 6 MV and 12 MV, 6% for 15 MV and 17% for 23 MV. The energy spectra of electrons coming from the flattening filter and the air below it are completely different. The air produces electrons of low energies. The mean energies of these spectra vary from 1 MeV to 2 MeV depending on the nominal energy of the photon beam. The secondary electrons generated by the flattening filter produce a wide energy spectrum with mean energies of the same order of the bremsstrahlung spectrum. The flattening filter absorbs the secondary electrons generated in the target, the primary collimator and the air inside the head.
ISSN:0031-9155
1361-6560
DOI:10.1088/0031-9155/46/9/312