Add to ORKGOn the basis of new radiobiological findings, the ICRP has recently revised the LET dependence of the quality factor Q(LET) for charged particles. In consequence, many in-phantom defined radiation protection quantities have to be re-evaluated. Among these, the most important operational quantity in radiation protection is the ambient dose equivalent h(*)(10). This study deals with the calculation of h(*)(10), as defined at a depth of 10 mm in the ICRU sphere for a broad parallel neutron beam. Additionally, the ratio of ambient dose equivalent to ambient dose, the effective quality factor q(*)(eff) as function of neutron energy, is derived
The application of the radiation weighting factor WR and the new concept of effective dose to determ...
This paper reviews the ICRP Publications 110 and 116 describing the reference computational phantoms...
With the introduction of new recommendations by ICRP Publication 103, the methodology for determinin...
New quantities have been specified by ICRU for use as operational or calibrational quantities in rad...
A simple formalism has been employed to average data on neutron fluence-to-directional dose equivale...
The purpose of this calculation is to calculate the neutron dose factors for the Sr-Cf-3000 neutron ...
Recommendations by NCRP and ICRP for a selective increase of the quality factor for neutrons have no...
Several proposals have been presented recently (ICRU 40, Zaider and Brenner, Kellerer) on the defini...
The fluence to organ-dose and effective-dose conversion coefficients for neutrons and protons with e...
In the past 5-10 years the concept of the quality factor Q in radiation protection has been widely d...
Using kerma factor data for H, C, N, and O in the neutron energy range from 20 MeV to 100 MeV provid...
AbstractThe sphere of International Commission on Radiation Units and Measurements (ICRU) consists o...
This paper reviews the ICRP Publications 110 and 116 describing the reference computational phantoms...
International audienceDose equivalent limits for single organs are recommended by the ICRP (Internat...
Both the International Commission on Radiological Protection (ICRP) and the National Council on Radi...
The application of the radiation weighting factor WR and the new concept of effective dose to determ...
This paper reviews the ICRP Publications 110 and 116 describing the reference computational phantoms...
With the introduction of new recommendations by ICRP Publication 103, the methodology for determinin...
New quantities have been specified by ICRU for use as operational or calibrational quantities in rad...
A simple formalism has been employed to average data on neutron fluence-to-directional dose equivale...
The purpose of this calculation is to calculate the neutron dose factors for the Sr-Cf-3000 neutron ...
Recommendations by NCRP and ICRP for a selective increase of the quality factor for neutrons have no...
Several proposals have been presented recently (ICRU 40, Zaider and Brenner, Kellerer) on the defini...
The fluence to organ-dose and effective-dose conversion coefficients for neutrons and protons with e...
In the past 5-10 years the concept of the quality factor Q in radiation protection has been widely d...
Using kerma factor data for H, C, N, and O in the neutron energy range from 20 MeV to 100 MeV provid...
AbstractThe sphere of International Commission on Radiation Units and Measurements (ICRU) consists o...
This paper reviews the ICRP Publications 110 and 116 describing the reference computational phantoms...
International audienceDose equivalent limits for single organs are recommended by the ICRP (Internat...
Both the International Commission on Radiological Protection (ICRP) and the National Council on Radi...
The application of the radiation weighting factor WR and the new concept of effective dose to determ...
This paper reviews the ICRP Publications 110 and 116 describing the reference computational phantoms...
With the introduction of new recommendations by ICRP Publication 103, the methodology for determinin...