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Literature
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Search the scientific literature database
Mobile communications
Population studies
Experimental studies
Studies on 5th generation mobile communications (5G)
Millimeter waves
Millimeter waves
50/60 Hz
Population studies
Experimental studies (magnetic fields)
Experimental studies (electric fields)
Children and young animals
Population studies
Experimental studies
Static fields
Experimental studies (magnetic fields)
Experimental studies (electric fields)
Technology
General
Electric fields
Magnetic fields
Electromagnetic fields
Electromagnetic spectrum
Historical review
Static fields (0 Hz)
Natural static fields
Man-made static fields
Public rail passenger transportation systems
High-voltage direct current (HVDC)
Converter station
MRI
Magnetic remedies (blankets, patches, bracelets, etc.)
Low frequency (0.1 Hz–1 kHz)
Power generation and distribution
Power network
Overhead power lines
Underground cables
Substations
Exposure sources at home
Traction power system 16.7 Hz
Intermediate frequency (1 kHz–10 MHz)
Natural intermediate frequency fields
Man-made intermediate frequency fields
Induction hobs
Electric vehicles
Wireless charger for electric vehicles
Other field sources
Radio frequency (10 MHz–300 GHz)
Natural radio frequency fields
Man-made radio frequency fields
Mobile communication
Broadcasting transmitters (radio and television)
TETRA digital radio
Microwave oven
Other exposure sources
Glossary
Effects
General
Types of studies
Evaluation
Acute and chronic effects
Sensitivity of different population groups
Static fields (0 Hz)
Low frequency (0.1 Hz–1 kHz)
Genotoxicity
Electromagnetic hypersensitivity
Neurodegenerative diseases (Parkinson’s disease, Alzheimer’s disease, ALS)
Cancer and childhood leukemia
Modification of brain waves
Cardiovascular system
Secretion of melatonin
Implants
Indirect effects
Intermediate frequency (1 kHz–10 MHz)
Radio frequency (10 MHz–300 GHz)
Cancer
Electromagnetic hypersensitivity
EEG/brain activity
Cognitive, psychomotor and memory functions
Sleep
Blood-brain barrier
Fertility
Genotoxicity
Microwave hearing
Indirect effects
Therapeutic applications
More
Links
Links to national and international EMF-related institutions
Limits
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Limit values in Germany (general public)
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Electrical injuries
Causes
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Literature search results
17329 articles were found.
The following terms were included: Frequenz, frequency, 頻度、周波数
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2023
,
Porcu I, Macciò C, Muntoni G, Fanti A
Design of a Sierpinski Fractal Antenna for Breast Tumors Diagnosis
[tech./dosim.]
2023 Photonics & Electromagnetics Research Symposium (PIERS), Prague, Czech Republic. IEEE: pp. 1698-1704; ISBN 9798350312850
2008
,
Porreca EG, Giordano-Jablon GM
Treatment of Severe (Stage III and IV) Chronic Pressure Ulcers Using Pulsed Radio Frequency Energy in a Quadriplegic Patient
[med. app.]
Eplasty 8: e49
2015
,
Porsius JT, Claassen L, Smid T, Woudenberg F, Petrie KJ, Timmermans DR
[details]
Symptom reporting after the introduction of a new high-voltage power line: A prospective field study
[risk]
Environ Res 138: 112-117
2003
,
Port M, Abend M, Romer B, Van Beuningen D
[details]
Influence of high-frequency electromagnetic fields on different modes of cell death and gene expression
[med./bio.]
Int J Radiat Biol 79 (9): 701-708
2005
,
Portaccio M, De Luca P, Durante D, Grano V, Rossi S, Bencivenga U, Lepore M, Mita DG
[details]
Modulation of the catalytic activity of free and immobilized peroxidase by extremely low frequency electromagnetic fields: dependence on frequency
[med./bio.]
Bioelectromagnetics 26 (2): 145-152
2003
,
Portaccio M, De Luca P, Durante D, Rossi S, Bencivenga U, Canciglia P, Lepore M, Mattei A, De Maio A, Mita DG
In vitro studies of the influence of ELF electromagnetic fields on the activity of soluble and insoluble peroxidase
[med./bio.]
Bioelectromagnetics 24 (7): 449-456
2018
,
Portelli LA, Falldorf K, Thuróczy G, Cuppen J
Retrospective estimation of the electric and magnetic field exposure conditions in in vitro experimental reports reveal considerable potential for uncertainty
[tech./dosim.]
Bioelectromagnetics 39 (3): 231-243
2012
,
Portelli LA, Madapatha DR, Martino CF, Hernandez M, Barnes FS
[details]
Reduction of the background magnetic field inhibits ability of Drosophila melanogaster to survive ionizing radiation
[med./bio.]
Bioelectromagnetics 33 (8): 706-709
1988
,
Portet R, Cabanes J
Development of young rats and rabbits exposed to a strong electric field
[med./bio.]
Bioelectromagnetics 9 (1): 95-104
1975
,
Portnov OG, Shakarnis VF, Maiore DY
[Mutagenic action of static electric fields on Drosophila melanogaster females]
[foreign-language]
Genetika 11 (6): 177-179
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