Add to ORKGCharged hadron beams have been investigated for use in radiation therapy of cancer since the 1940s due to their unique potential to place tightly conformal radiation doses deep inside tissue. This is achieved by exploiting the phenomenon of the so-called Bragg peak. In both research and clinical settings, fast and accurate radiation calculations play a crucial role in charged hadron therapy physics. Unfortunately, physicists are often faced with the fundamental trade off of speed versus accuracy in their calculations. This dissertation addresses this trade off by presenting three computational physics methods for specific and general charged hadron beam therapy calculations. In this dissertation the pseudo-Monte Carlo method of track re...
Monte Carlo methods are used to calculate statistical behavior through the use of random number gene...
Hadrontherapy is a high-precision technique in cancer radiation therapy, which allows obtaining a su...
Treatment planning in proton therapy requires the calculation of absorbed dose distributions on beam...
Charged hadron beams have been investigated for use in radiation therapy of cancer since the 1940’s...
The Monte Carlo method is used to provide accurate dose estimates in proton radiation therapy resear...
In the context of the particle therapy a crucial role is played by Treatment Planning Systems (TPSs)...
Ion beam therapy is a rapidly growing technique for tumor radiation therapy. Ions allow for a high d...
This thesis examines computer technology in radiation oncology and the intimate role that it must no...
Monte Carlo codes are utilized for accurate dose calculations in proton radiation therapy research. ...
New technologies in cancer radiotherapy need a more accurate computation of the dose delivered in th...
An ongoing challenge in delivering radiotherapy to cancer patients is to maximise dose to the tumour...
Grid computing is an emerging technology that enables computational tasks to be accomplished in a co...
Monte Carlo (MC) method is the most accurate computational method for dose calculation, but its wide...
A new Monte Carlo (MC) algorithm, the `dose planning method' (DPM), and its associated computer pro...
Particle physics simulations are the cornerstone of nuclear engineering applications. Among them rad...
Monte Carlo methods are used to calculate statistical behavior through the use of random number gene...
Hadrontherapy is a high-precision technique in cancer radiation therapy, which allows obtaining a su...
Treatment planning in proton therapy requires the calculation of absorbed dose distributions on beam...
Charged hadron beams have been investigated for use in radiation therapy of cancer since the 1940’s...
The Monte Carlo method is used to provide accurate dose estimates in proton radiation therapy resear...
In the context of the particle therapy a crucial role is played by Treatment Planning Systems (TPSs)...
Ion beam therapy is a rapidly growing technique for tumor radiation therapy. Ions allow for a high d...
This thesis examines computer technology in radiation oncology and the intimate role that it must no...
Monte Carlo codes are utilized for accurate dose calculations in proton radiation therapy research. ...
New technologies in cancer radiotherapy need a more accurate computation of the dose delivered in th...
An ongoing challenge in delivering radiotherapy to cancer patients is to maximise dose to the tumour...
Grid computing is an emerging technology that enables computational tasks to be accomplished in a co...
Monte Carlo (MC) method is the most accurate computational method for dose calculation, but its wide...
A new Monte Carlo (MC) algorithm, the `dose planning method' (DPM), and its associated computer pro...
Particle physics simulations are the cornerstone of nuclear engineering applications. Among them rad...
Monte Carlo methods are used to calculate statistical behavior through the use of random number gene...
Hadrontherapy is a high-precision technique in cancer radiation therapy, which allows obtaining a su...
Treatment planning in proton therapy requires the calculation of absorbed dose distributions on beam...