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Topics
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Topics
Electromagnetic fields
- What are electromagnetic fields?
- High-frequency fields
- Radiation protection in mobile communication
- Static and low-frequency fields
- Radiation protection relating to the expansion of the national grid
- Radiation protection in electromobility
- The Competence Centre for Electromagnetic Fields
Optical radiation
- What is optical radiation?
- UV radiation
- Visible light
- Infrared radiation
- Application in medicine and wellness
- Application in daily life and technology
Ionising radiation
- What is ionising radiation?
- Radioactivity in the environment
- Where does radioactivity occur in the environment?
- Natural radiation in Germany
- Air, soil and water
- Radon
- Foodstuffs
- What radionuclides can be found in food?
- Natural radioactivity in food
- Radiation exposure via food intake
- Natural radionuclides in brazil nuts
- Radiation exposure of mushrooms and game
- Radiation exposure due to natural radionuclides in drinking water
- Natural radionuclides in mineral waters
- Building materials
- Relics
- Industrial residues (NORM)
- BfS laboratories
- Applications in medicine
- Applications in daily life and in technology
- Radioactive radiation sources in Germany
- Register high-level radioactive radiation sources
- Type approval procedure
- Items claiming to provide beneficial effects of radiation
- Cabin luggage security checks
- Radioactive materials in watches
- Ionisation smoke detectors (ISM)
- Radiation effects
- What are the effects of radiation?
- Effects of selected radioactive materials
- Consequences of a radiation accident
- Cancer and leukaemia
- Hereditary radiation damage
- Individual radiosensitivity
- Epidemiology of radiation-induced diseases
- Ionising radiation: positive effects?
- Radiation protection
- Nuclear accident management
- Service offers
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The BfS
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The BfS
- Working at the BfS
- About us
- Science and research
- Laws and regulations
- Radiation Protection Act
- Ordinance on Protection against the Harmful Effects of Ionising Radiation
- Ordinance on Protection against the Harmful Effects of Non-ionising Radiation in Human Applications (NiSV)
- Frequently applied legal provisions
- Dose coefficients to calculate radiation exposure
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Working Level Month (WLM)
The unit Working Level Month (WLM) is frequently used in the risk assessment of occupational radon exposure instead of a calculated dose in Millisievert. The advantage is, that the concentration can be measured directly. No further assumptions for the dose distribution in the body are necessary. To calculate the cumulative exposure to radon in WLM, the measured alpha energy concentration (unit: Working Level (WL)) in one litre air is multiplied by the time the miner has worked in this surrounding. 1 WLM equals an exposure of 1 WL (1.3 * 105 Megaelectron-volt (MeV) potential alpha energy per litre air) over 170 working hours (monthly working time), or a half WL over 2 months (340 working hours), respectively.
