Add to ORKGIntroduction: For dose measurement in Megavoltage (MV) photon beams with ion chambers, the effect of volume occupied by the air cavity is not negligible. Therefore, the result of measurement should be corrected with a displacement perturbation correction factor (Pdis) or using an effective point of measurement (EPOM). The aim of this study is to calculate the EPOM for cylindrical ion chamber and to evaluate the fixed EPOM that was recommended by standard dosimetry protocols. Materials and Methods: Percent depth doses (PDDs) for 6 MV and 18 MV were measured with two types of chambers for different depths and field sizes. The EPOM was calculated using results obtained from measurement data for two types of chambers, comparison of the readings...
A semiempirical method based on the averaging effect of the sensitive volumes of different air-fille...
The objective of this study is to present a method to reduce the setup error inherent in clinical de...
Dosimetry of high‐energy photon beams is based upon absorbed dose to water standards and requires th...
Purpose: Determine the effective point of measurement (EPOM) of 12 thimble ion chambers, including m...
Purpose: The effective point of measurement (EPOM) of cylindrical ionization chambers differs from t...
In current dosimetry protocols for electron beams, for plane-parallel chambers, the effective point ...
The replacement correction factor (Prepl) in ion chamber dosimetry accounts for the effects of the m...
Purpose: Plane‐parallel ionization chambers were not included for reference dosimetry of photon beam...
We investigated the volume averaging effect for air-filled cylindrical ionization chambers to determ...
Purpose: In the TG-21 dosimetry protocol, for cylindrical chambers in electron beams the replacement...
The purpose of this study was to investigate the perturbation correction factors and inhomogeneity c...
Purpose: To provide a comprehensive investigation of electron beam reference dosimetry using Monte C...
Purpose: To investigate the behavior of plane-parallel ion chambers in high-energy photon beams thro...
Purpose: To investigate the influence of the ion chamber response including build‐up cap materials, ...
In radiotherapy, dose distributions are obtained by using dose calculation algorithms that are impla...
A semiempirical method based on the averaging effect of the sensitive volumes of different air-fille...
The objective of this study is to present a method to reduce the setup error inherent in clinical de...
Dosimetry of high‐energy photon beams is based upon absorbed dose to water standards and requires th...
Purpose: Determine the effective point of measurement (EPOM) of 12 thimble ion chambers, including m...
Purpose: The effective point of measurement (EPOM) of cylindrical ionization chambers differs from t...
In current dosimetry protocols for electron beams, for plane-parallel chambers, the effective point ...
The replacement correction factor (Prepl) in ion chamber dosimetry accounts for the effects of the m...
Purpose: Plane‐parallel ionization chambers were not included for reference dosimetry of photon beam...
We investigated the volume averaging effect for air-filled cylindrical ionization chambers to determ...
Purpose: In the TG-21 dosimetry protocol, for cylindrical chambers in electron beams the replacement...
The purpose of this study was to investigate the perturbation correction factors and inhomogeneity c...
Purpose: To provide a comprehensive investigation of electron beam reference dosimetry using Monte C...
Purpose: To investigate the behavior of plane-parallel ion chambers in high-energy photon beams thro...
Purpose: To investigate the influence of the ion chamber response including build‐up cap materials, ...
In radiotherapy, dose distributions are obtained by using dose calculation algorithms that are impla...
A semiempirical method based on the averaging effect of the sensitive volumes of different air-fille...
The objective of this study is to present a method to reduce the setup error inherent in clinical de...
Dosimetry of high‐energy photon beams is based upon absorbed dose to water standards and requires th...