- D1: Report on the characterisation, calibration and performance comparison of a mobile muon detector, a mobile neutron detector and a semiconductor based modified Timepix3 detector and the adaptation of a LIDAR system for vertical atmospheric profiling parameters (e.g., temperature, density, aerosol concentration) for use in determining SCR flux on the ground. (Download)
- D2: Report on the determination of the dependence of SCR on PCR and atmospheric parameters (e.g., temperature, density and aerosol concentration) based on the generation of a documented metrological method from field measurement campaigns conducted using the instrumentation from D1. (Download)
- D3: Report on the identification and quantification of correlations between PCR and solar UV radiation on the ground, and their dependence on anthropogenic gas emissions based on the generation of a documented metrological method from field measurement campaigns conducted using the instrumentation from D1.(Download)
- D4: Report on low energy electron scattering cross sections for molecules relevant in stratospheric chemistry and ozone depletion, including a user guide for the database of cross section collisions. (Download)
- D5: Good Practice Guide for the simulation and estimation of particle fluxes during minimum solar activity, maximum solar activity and the recent Solar Energetic Particle Events. (Download)
- D6: Paper on the molecular processes affecting ozone depletion and atmospheric dynamics including quantification of molecules produced from electron collision-induced dissociation of natural and anthropogenic atmospheric molecules. (Download)
- D7: Report on the assessment of the effect on healthy human cells of exposure to environmental level single and combined SCR and UV radiation fields under experimental conditions based on the measurement of induced stress gene expression changes using system biology approaches. (Download)
- D8: Good Practice Guide for comprehensive radiobiological studies of human cell lines to single and combined fields of SCR and UV radiation enabling the establishment of correlations between the radiation type and flux, and changes to cellular parameters (cell death, DNA damage and genomic instability, adhesion, proliferation and gene expression), using established radiation effect models and integrative approaches. (Download)