Filtered generated 6 hits.
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2019:26 Analysis of trends in brain tumour incidence in Sweden
SSM perspective Background In the past few years, a discussion has been ongoing in both the research community and the media as to whether exposure to radiowaves from the use of mobile phones has an impact on the incidence of brain tumours in the general population. Ever since the introduction of mobile phones in the 1980s, their use has increased dramatically and has now spread to almost all...
Content type: Publications -
2019:09 General data in accordance with the requirements in Article 37 of the Euratom Treaty
Decommissioning of the nuclear reactor Ågesta in Sweden.
Content type: Publications -
2019:08 Recent Research on EMF and Health Risk, Thirteenth report from SSM’s Scientific Council on Electromagnetic Fields, 2018
SSM perspective Background The Swedish Radiation Safety Authority’s (SSM) Scientific Council on Electromagnetic Fields monitors current research on potential health risks with a correlation 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 -
2019:07 General data in accordance with the requirements in Article 37 of the Euratom Treaty
Decommissioning of the Barsebäck nuclear power plant in Sweden.
Content type: Publications -
2018:22e ESS research facility Basis for emergency preparedness and response planning
Further information Summary Northeast of Lund, Sweden, in the area of Brunnshög, is the site of European Spallation Source ERIC (ESS), a research facility that is under construction. When the facility (hereinafter frequently referred to as “ESS”) is commissioned, a linear accelerator will supply protons to a rotating target of tungsten, whereupon neutrons are generated through...
Content type: Publications -
2019:04 Dosimetry in environments surrounding a laser-plasma accelerator
SSM perspective Background Modern laser technology makes it possible to generate ultrashort pulses with a very high peak power. At the Lund Laser Centre, a high-power laser facility in Lund, Sweden, laser pulses having a duration of approximately 30 femtoseconds are generated with a maximum peak power of up to 40 terawatts. When these pulses are focused, extreme light intensity is achieved.
Content type: Publications
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