For all one-hit detectors the relative effectiveness of a mixed radiation field may be found as the dose-weighted average of the relative effectiveness of its components, segregated according to the atomic number Z and the energy T. We emphasize that this procedure is incorrect for mammalian cells, whatever the nature of the segregation
The supralinear response of thermoluminescent dosimeters (TLDs) after irradiation with gamma- or bet...
Most data supporting the widely accepted relative biological effectiveness (RBE) value of 1.1 for th...
Radiation detection and damage data from several physical, chemical, and biological systems have bee...
Let us consider the relative effectiveness Rj of a one-hit detector in track-segment irradiation wit...
Recent analyses of track structure show that the parameters describing a radiation field are not sep...
Purpose: The relative biological effectiveness of two epithermal neutron sources, a reactor based so...
Although dose is the simplest and most widely used measurement of a radiation field, it does not alw...
A problem for radiobiology, radiation protection and treatment planning is the calculation of RBE as...
(LET) radiations varies with cellular radiosensitivity parameters and the radiation environment. Of ...
Historically, the relative biological effectiveness (RBE) has been calculated to quantify the differ...
The universal use of dose as a normalizing parameter in radiobiology is based entirely on the availa...
Tissue equivalent proportional counters (TEPCs) are commonly used for radiation monitoring in areas ...
The relative biological effectiveness of several radiations of differing specific ionizations was de...
Calculations of the survival, r.b.e., and o.e.r. of human kidney cells, after sequential irradiation...
In radiotherapy with protons, a constant relative biological effectiveness (RBE) of 1.1 is tradition...
The supralinear response of thermoluminescent dosimeters (TLDs) after irradiation with gamma- or bet...
Most data supporting the widely accepted relative biological effectiveness (RBE) value of 1.1 for th...
Radiation detection and damage data from several physical, chemical, and biological systems have bee...
Let us consider the relative effectiveness Rj of a one-hit detector in track-segment irradiation wit...
Recent analyses of track structure show that the parameters describing a radiation field are not sep...
Purpose: The relative biological effectiveness of two epithermal neutron sources, a reactor based so...
Although dose is the simplest and most widely used measurement of a radiation field, it does not alw...
A problem for radiobiology, radiation protection and treatment planning is the calculation of RBE as...
(LET) radiations varies with cellular radiosensitivity parameters and the radiation environment. Of ...
Historically, the relative biological effectiveness (RBE) has been calculated to quantify the differ...
The universal use of dose as a normalizing parameter in radiobiology is based entirely on the availa...
Tissue equivalent proportional counters (TEPCs) are commonly used for radiation monitoring in areas ...
The relative biological effectiveness of several radiations of differing specific ionizations was de...
Calculations of the survival, r.b.e., and o.e.r. of human kidney cells, after sequential irradiation...
In radiotherapy with protons, a constant relative biological effectiveness (RBE) of 1.1 is tradition...
The supralinear response of thermoluminescent dosimeters (TLDs) after irradiation with gamma- or bet...
Most data supporting the widely accepted relative biological effectiveness (RBE) value of 1.1 for th...
Radiation detection and damage data from several physical, chemical, and biological systems have bee...
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