Add to ORKGA two-dimensional (2D) dosimetry system has been designed for position-sensitive dose-measurement applications in modem radiation therapy. The system consists of a scintillating screen (Gd2O2S:Tb), observed by a low-noise CCD camera with a long integration time. The system allows reliable and accurate simultaneous 2D imaging of therapeutic dose distributions in the scintillator with sub millimeter spatial resolution. This system has been applied successfully at different applications in radiation therapy. Results of dose measurements in a treatment modality using a scanning proton beam are reported. It is shown that a quick and reliable measurement can be done. The screen + CCD system has proven to perform accurate dosimetry in applications...
The high complexity and high instantaneous dose rates of the intensity modulated treatment plans per...
This thesis deals with the development of a new dosimetry device for the control of radiotherapy bea...
Radiation therapy accelerators require highly accurate dose deposition and the output must be monito...
A two-dimensional (2D) dosimetry system has been designed for position-sensitive dose-measurement ap...
A two-dimensionally position sensitive dosimetry system has been tested for different dosimetric app...
A quality control system especially designed for dosimetry in scanning proton beams has been designe...
The Proton Therapy Facility at TRIUMF has been in routine operation since 1995 using 70 MeV protons...
The continual need for more accurate and effective techniques in radiation therapy makes it necessar...
A two-dimensionally position sensitive dosimetry system has tested for different dosimetric applicat...
A two-dimensional (2D) beam imaging system with a fluorescent intensifying screen and high-speed cha...
A two-dimensional position-sensitive dosimetry system based on a scintillating gas detector is being...
New radiation therapy techniques such as IMRT present significant efficiency due to their highly con...
Scanned beam proton therapy is a promising cancer treatment modality which is becoming more widely a...
The main aim of radiotherapy techniques is to deliver the dose to the target volume while sparing as...
As part of clinical safety for radiation therapy, quality assurance is vital to ensure that the deli...
The high complexity and high instantaneous dose rates of the intensity modulated treatment plans per...
This thesis deals with the development of a new dosimetry device for the control of radiotherapy bea...
Radiation therapy accelerators require highly accurate dose deposition and the output must be monito...
A two-dimensional (2D) dosimetry system has been designed for position-sensitive dose-measurement ap...
A two-dimensionally position sensitive dosimetry system has been tested for different dosimetric app...
A quality control system especially designed for dosimetry in scanning proton beams has been designe...
The Proton Therapy Facility at TRIUMF has been in routine operation since 1995 using 70 MeV protons...
The continual need for more accurate and effective techniques in radiation therapy makes it necessar...
A two-dimensionally position sensitive dosimetry system has tested for different dosimetric applicat...
A two-dimensional (2D) beam imaging system with a fluorescent intensifying screen and high-speed cha...
A two-dimensional position-sensitive dosimetry system based on a scintillating gas detector is being...
New radiation therapy techniques such as IMRT present significant efficiency due to their highly con...
Scanned beam proton therapy is a promising cancer treatment modality which is becoming more widely a...
The main aim of radiotherapy techniques is to deliver the dose to the target volume while sparing as...
As part of clinical safety for radiation therapy, quality assurance is vital to ensure that the deli...
The high complexity and high instantaneous dose rates of the intensity modulated treatment plans per...
This thesis deals with the development of a new dosimetry device for the control of radiotherapy bea...
Radiation therapy accelerators require highly accurate dose deposition and the output must be monito...