Add to ORKGMonte Carlo simulations are increasingly used for dose calculations in proton therapy due to its inherent accuracy. However, dosimetric deviations have been found using Monte Carlo code when high density materials are present in the proton beamline. The purpose of this work was to quantify the magnitude of dose perturbation caused by metal objects. We did this by comparing measurements and Monte Carlo predictions of dose perturbations caused by the presence of small metal spheres in several clinical proton therapy beams as functions of proton beam range and drift space. Monte Carlo codes MCNPX, GEANT4 and Fast Dose Calculator (FDC) were used. Generally good agreement was found between measurements and Monte Carlo predictions, with the avera...
Purpose: Monte Carlo (MC) dose calculation is generally superior to analytical dose calculation (ADC...
Purpose: To develop an improved nuclear halo dose model of a pencil beam algorithm (PBA) for dose ca...
Treatment planning for proton tumor therapy requires a fast and accurate dose-calculation method. We...
Monte Carlo simulations are increasingly used for dose calculations in proton therapy due to its inh...
In recent years, the Monte Carlo method has been used in a large number of research studies in radia...
Purpose: Accurate modeling of multiple Coulomb scattering (MCS) of heavy charged particles is impera...
Purpose: To quantify the dose perturbation behind implanted metallic appliances and fiducials in pro...
Background and purpose: Monte Carlo simulations as well as analytical computations of proton transpo...
In this study, a proton pencil beam dose calculation algorithm was developed for a parallel, monoene...
The Monte Carlo method is used to provide accurate dose estimates in proton radiation therapy resear...
OBJECTIVE Monte Carlo (MC) simulations substantially improve the accuracy of predicted doses. Thi...
Monte Carlo simulations of an ocular treatment beam- line consisting of a nozzle and a water phantom...
To exploit the advantages of proton beam therapy fully, it is necessary to perform three-dimensional...
PURPOSE: Proton therapy with Pencil Beam Scanning (PBS) has the potential to improve radiotherapy tr...
PURPOSE: This study aimed to present guidance on the correlation between treatment nozzle and proton...
Purpose: Monte Carlo (MC) dose calculation is generally superior to analytical dose calculation (ADC...
Purpose: To develop an improved nuclear halo dose model of a pencil beam algorithm (PBA) for dose ca...
Treatment planning for proton tumor therapy requires a fast and accurate dose-calculation method. We...
Monte Carlo simulations are increasingly used for dose calculations in proton therapy due to its inh...
In recent years, the Monte Carlo method has been used in a large number of research studies in radia...
Purpose: Accurate modeling of multiple Coulomb scattering (MCS) of heavy charged particles is impera...
Purpose: To quantify the dose perturbation behind implanted metallic appliances and fiducials in pro...
Background and purpose: Monte Carlo simulations as well as analytical computations of proton transpo...
In this study, a proton pencil beam dose calculation algorithm was developed for a parallel, monoene...
The Monte Carlo method is used to provide accurate dose estimates in proton radiation therapy resear...
OBJECTIVE Monte Carlo (MC) simulations substantially improve the accuracy of predicted doses. Thi...
Monte Carlo simulations of an ocular treatment beam- line consisting of a nozzle and a water phantom...
To exploit the advantages of proton beam therapy fully, it is necessary to perform three-dimensional...
PURPOSE: Proton therapy with Pencil Beam Scanning (PBS) has the potential to improve radiotherapy tr...
PURPOSE: This study aimed to present guidance on the correlation between treatment nozzle and proton...
Purpose: Monte Carlo (MC) dose calculation is generally superior to analytical dose calculation (ADC...
Purpose: To develop an improved nuclear halo dose model of a pencil beam algorithm (PBA) for dose ca...
Treatment planning for proton tumor therapy requires a fast and accurate dose-calculation method. We...