The aim of this work was a Monte Carlo (MC) based investigation of the impact of different radiation transport methods in collimators of a linear accelerator on photon beam characteristics, dose distributions, and efficiency. Thereby it is investigated if it is possible to use different simplifications in the radiation transport for some clinical situations in order to save calculation time
Modern Monte Carlo radiation transport codes can be applied to model most applications of radiation,...
Bremsstrahlung photon beams produced by linac accelerators are currently the most commonly used meth...
Modern cancer treatment relies on Monte Carlo simulations to help radiotherapists and clinical physi...
With increasing complexity of application techniques in radiotherapy, the demand on accurate treatme...
Purpose: To compare Monte Carlo simulation with conventional dosimetry techniques for stereotactic r...
Monte Carlo (MC) particle transport simulations are increasingly applied in treatment planning metho...
AbstractThe choice of the most appropriate strategy for radiotherapy treatment is mainly based on th...
A study of the performance of five commercial radiotherapy treatment planning systems ( TPSs) for co...
High-energy linear accelerators with photon radiation are widely used in radiation oncology. In para...
Abstract Background The use of the Monte Carlo (MC) method in radiotherapy dosimetry has increased a...
Introduction: In recent decades, several Monte Carlo codes have been introduced for research and med...
The Monte Carlo (MC) method has been shown through many research studies to calculate accurate dose ...
Dose calculation plays an important role in the accuracy of radiotherapy treatment planning and beam...
Monte Carlo method is often used in radiation therapy as utilized in all the branches of science. Fo...
Currently, commercial treatment planning systems are validated against Monte Carlo (MC) simulation i...
Modern Monte Carlo radiation transport codes can be applied to model most applications of radiation,...
Bremsstrahlung photon beams produced by linac accelerators are currently the most commonly used meth...
Modern cancer treatment relies on Monte Carlo simulations to help radiotherapists and clinical physi...
With increasing complexity of application techniques in radiotherapy, the demand on accurate treatme...
Purpose: To compare Monte Carlo simulation with conventional dosimetry techniques for stereotactic r...
Monte Carlo (MC) particle transport simulations are increasingly applied in treatment planning metho...
AbstractThe choice of the most appropriate strategy for radiotherapy treatment is mainly based on th...
A study of the performance of five commercial radiotherapy treatment planning systems ( TPSs) for co...
High-energy linear accelerators with photon radiation are widely used in radiation oncology. In para...
Abstract Background The use of the Monte Carlo (MC) method in radiotherapy dosimetry has increased a...
Introduction: In recent decades, several Monte Carlo codes have been introduced for research and med...
The Monte Carlo (MC) method has been shown through many research studies to calculate accurate dose ...
Dose calculation plays an important role in the accuracy of radiotherapy treatment planning and beam...
Monte Carlo method is often used in radiation therapy as utilized in all the branches of science. Fo...
Currently, commercial treatment planning systems are validated against Monte Carlo (MC) simulation i...
Modern Monte Carlo radiation transport codes can be applied to model most applications of radiation,...
Bremsstrahlung photon beams produced by linac accelerators are currently the most commonly used meth...
Modern cancer treatment relies on Monte Carlo simulations to help radiotherapists and clinical physi...