Mouhamad Elbast scite author profile

Mouhamad Elbast

3Publications

14Citation Statements Received

23Citation Statements Given

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Microdosimetry of alpha particles for simple and 3D voxelised geometries using MCNPX and Geant4 Monte Carlo codes

Elbast¹,

Saudo²,

Franck³

et al. 2011

Radiation Protection Dosimetry

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Microdosimetry using Monte Carlo simulation is a suitable technique to describe the stochastic nature of energy deposition by alpha particle at cellular level. Because of its short range, the energy imparted by this particle to the targets is highly non-uniform. Thus, to achieve accurate dosimetric results, the modelling of the geometry should be as realistic as possible. The objectives of the present study were to validate the use of the MCNPX and Geant4 Monte Carlo codes for microdosimetric studies using simple and three-dimensional voxelised geometry and to study their limit of validity in this last case. To that aim, the specific energy (z) deposited in the cell nucleus, the single-hit density of specific energy f(1)(z) and the mean-specific energy were calculated. Results show a good agreement when compared with the literature using simple geometry. The maximum percentage difference found is <6 %. For voxelised phantom, the study of the voxel size highlighted that the shape of the curve f(1)(z) obtained with MCNPX for <1 µm voxel size presents a significant difference with the shape of non-voxelised geometry. When using Geant4, little differences are observed whatever the voxel size is. Below 1 µm, the use of Geant4 is required. However, the calculation time is 10 times higher with Geant4 than MCNPX code in the same conditions.

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Thyroid cell irradiation by radioiodines: a new Monte Carlo electron track-structure code

Champion¹,

Elbast²,

et al. 2007

Braz. arch. biol. technol.

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The most significant impact of the Chernobyl accident is the increased incidence of thyroid cancer among children who were exposed to short-lived radioiodines and 131-iodine. In order to accurately estimate the radiation dose provided by these radioiodines, it is necessary to know where iodine is incorporated. To do that, the distribution at the cellular level of newly organified iodine in the immature rat thyroid was performed using secondary ion mass microscopy (NanoSIMS 50

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Cinétique intracolloïdale de l'iode dans la thyroïde de rat nouveau-né. Imagerie directe par microscopie ionique analytique

Elbast¹,

Wu²,

Guiraud-Vitaux³

et al. 2007

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Mouhamad Elbast

Microdosimetry of alpha particles for simple and 3D voxelised geometries using MCNPX and Geant4 Monte Carlo codes

Thyroid cell irradiation by radioiodines: a new Monte Carlo electron track-structure code

Cinétique intracolloïdale de l'iode dans la thyroïde de rat nouveau-né. Imagerie directe par microscopie ionique analytique

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