EURADOS is delighted to announce its series of Webinars with the aim of a better and wider dissemination of the scientific results of the EURADOS working groups. We plan to continue doing this on a regular basis, approximately once per month, even when the world is again pandemic-free and skies are again filled with airplanes bringing scientists to conferences all over the world.
So, we are very happy and proud to present the second of our EURADOS webinars on January 19, 2021 at 4pm. The webinar will be presented by Working Group 11: High energy radiation fields, and will be organized in three short talks.
Neutron calibrations and tests often need to be performed at energies and in spectral distributions very different from those generated by radioactive sources. These three short talks will describe two workplace radiation facilities available at CERN high-energy accelerators.
CERF (CERN-EU high-energy Reference Field) is a high-energy workplace radiation field primarily for testing radiation protection instrumentation used at high-energy accelerators and for aircrew dosimetry. CERF, served by a beam from the Super Proton Synchrotron, offers several exposure locations at two reference neutron fields with very different energy distributions, produced by 80 cm thick concrete and 40 cm thick iron shields, and broad range of dose rates. The LET distribution of dose equivalent makes CERF a suitable facility also for space dosimetry. Other applications are radiobiology studies, spallation cross section measurements directly in the hadron beam, activation studies of accelerator materials (by exposing them next to the target), and benchmarking Monte Carlo codes against experimental data. Absolute reference spectra and dose rates are calculated by the FLUKA Monte Carlo code and benchmarked against experimental data.
The CERN Shielding Benchmark Facility (CSBF) is situated laterally above the target station of the CERN High Energy Accelerator Mixed Field (CHARM) in the CERN East Experimental Area. It allows deep shielding penetration benchmark studies of various shielding configurations and materials for the secondary radiation created by the impact of the slowly extracted CERN Proton Synchrotron beam onto one out of a set of dedicated targets. The CSBF consists of 40 cm of initial cast iron shielding, a 200 cm long removable concrete block with 4 slots for activation samples, a material test location that is used for measurements at different thicknesses of various shielding materials as well as a platform for active and passive measurements in deep shielding penetration fields. The capabilities of the CSBF and the already performed benchmark and characterization studies are presented together with future exploitation schemes.
Brief introduction to the EURADOS WG11 (Marco Caresana, POLIMI)
A brief overview of CERN irradiation facilities and an historical look at CERF (Marco Silari, CERN)
The CERF facility, latest update (Fabio Pozzi, CERN)
The CERN Shielding Benchmark Facility (CSBF) (Robert Froeschl, CERN)
Associate Professor at the Department of Energy of the Politecnico di Milano
Marco Caresana graduated in physics at the University of Pavia in 1989. At present he is serving as Associate Professor at the Department of Energy of the Politecnico di Milano. He is in charge of the academic course “Radiation Detection and...
Dr. Marco Silari graduated in physics in 1982 and obtained a PhD in medical physics in 1985 at the University of Milano. From 1984 to 1995 he was researcher with the Italian National Research Council (CNR) in Milano. He spent the first two years...
Fabio Pozzi graduated in Nuclear Engineering at Politecnico di Milano in 2012 with a thesis on a deep shielding experiment performed at the CERF facility. In 2016, he obtained a PhD in Nuclear Engineering at the Technische Universität München...
Dr. Robert Froeschl joined CERN in 2007. He started working in the ATLAS experiment and received a PhD in Physics in 2010 for a thesis on the calibration of the electro-magnetic calorimeter of the ATLAS experiment.
He joined the CERN Radiation...