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2026:08e Food contamination from fallout following a nuclear explosion
Summary After a nuclear explosion, small particles may be dispersed as fallout over large areas and cause radioactive ground deposition. Radiation doses may be received from the fallout in several ways. One such exposure pathway is the ingestion of foodstuffs contaminated by the fallout, either directly or through agricultural production in areas with ground deposition. The Swedish Radiation...
Content type: Publications -
2026:02e Radiological Consequences of an Accident Involving a Nuclear-Powered Vessel
Summary...
Content type: Publications -
2026:03 Recent Research on electromagnetic fields and Health Risk, twentieth report from SSM’s Scientific Council on Electromagnetic Fields, 2025
SSM perspective Background The Swedish Radiation Safety Authority’s (SSM) Scientific Council on Electromagnetic Fields monitors current research on potential health risks in relation to exposure to electromagnetic fields and provides the authority with advice on assessing possible health risks. The Council gives guidance when the authority must give an opinion on policy matters when...
Content type: Publications -
2025:08 Carbon-14 in the marine environment of Ringhals nuclear power plant
Report for project SSM2022-4035...
Content type: Publications -
2025:04 Recent Research on electromagnetic fields and Health Risk, nineteenth report from SSM’s Scientific Council on Electromagnetic Fields, 2024
SSM perspective Background The Swedish Radiation Safety Authority’s (SSM) Scientific Council on Electromagnetic Fields monitors current research on potential health risks in relation to exposure to electromagnetic fields and provides the authority with advice on assessing possible health risks. The Council gives guidance when the authority must give an opinion on policy matters when...
Content type: Publications -
2024:12 Recent Research on EMF and Health Risk, Eighteenth report from SSM’s Scientific Council on Electromagnetic Fields, 2023
SSM perspective Background The Swedish Radiation Safety Authority’s (SSM) Scientific Council on Electromagnetic Fields monitors current research on potential health risks in relation to exposure to electromagnetic fields and provides the authority with advice on assessing possible health risks. The Council gives guidance when the authority must give an opinion on policy matters when...
Content type: Publications -
2024:07 Alpha spectrometry of radioactive aerosols from the European Spallation Source
– an investigation of the possibilities of direct alpha spectrometry.
Content type: Publications -
2024:05 Recent Research on EMF and Health Risk, Seventeenth report from SSM’s Scientific Council on Electromagnetic Fields, 2022
SSM perspective Background The Swedish Radiation Safety Authority’s (SSM) Scientific Council on Electromagnetic Fields monitors current research on potential health risks in relation to exposure to electromagnetic fields and provides the authority with advice on assessing possible health risks. The Council gives guidance when the authority must give an opinion on policy matters when...
Content type: Publications -
2023:05e Radiological Consequences of Fallout from Nuclear Explosions
Summary In this report, Strålsäkerhetsmyndigheten, the Swedish Radiation Safety Authority (SSM), presents an analysis of the potential radiological consequences of fallout from the nuclear explosions at distances between about 10 kilometres and about 300 kilometres from the explosion, and the effect of various protective actions. The contents of the report constitute a knowledge base...
Content type: Publications -
2023:12 Investigation of the limits of detection for specific radionuclides in soil from the European Spallation Source (ESS) using radiometric and mass spectrometric methods
SSM perspective Background In Lund, the construction of the European Spallation Source (ESS) research facility is underway and the facility is also undergoing a stepwise licensing procedure in accordance with relevant legal requirements. At ESS, neutrons will be produced by spallation when high-energy protons from a linear accelerator hit a rotating tungsten beam target. The neutrons released...
Content type: Publications