Add to ORKGA dedicated Geant4 study was developed to determine a correction factor (C) to convert the energy deposition response in diamond to water for heavy charged ions, with atomic number (Z) greater than 2 with energies typical of Galactic Cosmic Rays. The energy deposition response within an ideal diamond based microdosimeter was modelled and converted into a microdosimetric spectrum. The simulation was then repeated, substituting diamond with water. It was shown that by applying the correction factor, the energy deposition and microdosimetric response in diamond could be matched to that of water. The correction factor was determined to be C = 0.32 to 0.33. This study has shown a weak dependence of the correction factor C with respect to the Z o...
Hadron therapy is an innovative mode of radiotherapy (RT) for cancer treatment which enables tumor c...
We have measured the radiation tolerance of chemical vapor deposition (CVD) diamond against protons ...
Purpose To investigate for the first time the potentialities of obtaining microdosimetric measuremen...
This paper is dedicated to the characterization of a novel diamond microdosimeter prototype with 3D ...
The requirements for solid state micro- dosimetry particularly within the context of medical and spa...
Hadron therapy is an effective, fast growing radiotherapy technique using protons or light-ions to c...
Purpose The purpose of this study was to investigate for the first time the performance of a synthet...
International audienceWe measured the radiation tolerance of commercially available diamonds grown b...
In this work, the fabrication and characterization of a microdosimeter based on a synthetic single c...
In this work, a detailed analysis of the properties of a novel microdosimeter based on a synthetic s...
We measured the radiation tolerance of commercially available diamonds grown by the Chemical Vapor D...
Hadron therapy is an innovative mode of radiotherapy (RT) for cancer treatment which enables tumor c...
We have measured the radiation tolerance of chemical vapor deposition (CVD) diamond against protons ...
Purpose To investigate for the first time the potentialities of obtaining microdosimetric measuremen...
This paper is dedicated to the characterization of a novel diamond microdosimeter prototype with 3D ...
The requirements for solid state micro- dosimetry particularly within the context of medical and spa...
Hadron therapy is an effective, fast growing radiotherapy technique using protons or light-ions to c...
Purpose The purpose of this study was to investigate for the first time the performance of a synthet...
International audienceWe measured the radiation tolerance of commercially available diamonds grown b...
In this work, the fabrication and characterization of a microdosimeter based on a synthetic single c...
In this work, a detailed analysis of the properties of a novel microdosimeter based on a synthetic s...
We measured the radiation tolerance of commercially available diamonds grown by the Chemical Vapor D...
Hadron therapy is an innovative mode of radiotherapy (RT) for cancer treatment which enables tumor c...
We have measured the radiation tolerance of chemical vapor deposition (CVD) diamond against protons ...
Purpose To investigate for the first time the potentialities of obtaining microdosimetric measuremen...