Advanced Radiation Dosimetry European Network Training initiative
- NázevTitle
- Advanced Radiation Dosimetry European Network Training initiativeAdvanced Radiation Dosimetry European Network Training initiative
- PoskytovatelProvider
- Evropská komiseEuropean Commission
- ProgramProgramme
- Projekty 7. RP EUProjekty 7. RP EU
- Kód CEPCEP code
- Datum zahájeníStart date
- 2012-02-01
- Datum ukončeníEnd date
- 2016-01-31
- Vztah ČVUTCTU relation
- ČVUT je v pozici další účastníkCTU has the role of "another participant"
- Řešitel ČVUTCTU investigator
- Ing. Stanislav Pospíšil, DrSc.
AbstraktAbstract
ARDENT is a multi-site ITN that will provide training for 15 ESRs in the field of advanced instrumentation for radiation dosimetry. This training initiative is founded on actions aiming to strengthen and enrich international cooperation amongst all partners involved (7 Full and 5 Associate), promoting the technological transfer of the research results to industry through the active involvement of four industrial partners (3 Full and 1 Associate). ARDENT focuses on three main technologies: gas detectors (gas electron multipliers and tissue equivalent proportional counters), solid state detectors (Medipix and silicon microdosimeters) and track detectors (CR-39 and nanodosimeters). It addresses the development of these types of instruments for mixed-field dosimetry, microdosimetry, spectrometry, beam monitoring.
ARDENT is a multi-site ITN that will provide training for 15 ESRs in the field of advanced instrumentation for radiation dosimetry. This training initiative is founded on actions aiming to strengthen and enrich international cooperation amongst all partners involved (7 Full and 5 Associate), promoting the technological transfer of the research results to industry through the active involvement of four industrial partners (3 Full and 1 Associate). ARDENT focuses on three main technologies: gas detectors (gas electron multipliers and tissue equivalent proportional counters), solid state detectors (Medipix and silicon microdosimeters) and track detectors (CR-39 and nanodosimeters). It addresses the development of these types of instruments for mixed-field dosimetry, microdosimetry, spectrometry, beam monitoring.
VýsledkyResults
- Characterization of a Timepix detector-based hodoscope for the measurement of mixed radiation fieldsCharacterization of a Timepix detector-based hodoscope for the measurement of mixed radiation fields
- Time-of-flight measurement of fast neutrons with Timepix detectorsTime-of-flight measurement of fast neutrons with Timepix detectors
- BrachyView: Tomographic Reconstruction Using Timepix Detectors In Post-Implant Dosimetry Checks For Permanent Prostate Brachytherapy ImplantsBrachyView: Tomographic Reconstruction Using Timepix Detectors In Post-Implant Dosimetry Checks For Permanent Prostate Brachytherapy Implants
- Measurement of particle directions in low earth orbit with a TimepixMeasurement of particle directions in low earth orbit with a Timepix
- BrachyView: Feasibility study into the application of Timepix detectors for soft tissue thickness imaging in prostate brachytherapy treatmentBrachyView: Feasibility study into the application of Timepix detectors for soft tissue thickness imaging in prostate brachytherapy treatment
- Measurement of the double K-shell vacancy creation probability in the electron-capture decay of 55Fe with active-pixel detectorsMeasurement of the double K-shell vacancy creation probability in the electron-capture decay of 55Fe with active-pixel detectors
- ATLAS-TPX: a two-layer pixel detector setup for neutron detection and radiation field characterizationATLAS-TPX: a two-layer pixel detector setup for neutron detection and radiation field characterization
- Angular correlation function of the hypersatellite-satellite x-ray cascade following K-shell electron capture of Fe-55Angular correlation function of the hypersatellite-satellite x-ray cascade following K-shell electron capture of Fe-55
- Ionizing Energy Depositions After Fast Neutron Interactions in SiliconIonizing Energy Depositions After Fast Neutron Interactions in Silicon