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Non-ionizing radiation
From Wikipedia, the free encyclopedia
Non-ionizing radiation (or, esp. in British English, non-ionising radiation) refers to any type of electromagnetic radiation that does not carry enough energy per quantum to ionize atoms or molecules — that is, to completely remove an electron from an atom or molecule.[1] Instead of producing charged ions when passing through matter, the electromagnetic radiation has sufficient energy only for excitation, the movement of an electron to a higher energy state. Nevertheless, different biological effects are observed for different types of non-ionizing radiation.[2][3]
Near ultraviolet, Visible light, infrared, microwave, radio waves, low frequency RF and static fields are all examples of non-ionizing radiation. Visible and near ultraviolet may induce photochemical reactions, ionize some molecules or accelerate radical reactions, such as photochemical aging of varnishes[4] or the breakdown of flavoring compounds in beer to produce the 'lightstruck flavor'.[5] The light from the Sun that reaches the earth is largely composed of non-ionizing radiation, with the notable exception of some ultraviolet rays. However, most ionizing radiation is filtered out by the atmosphere (see Earth's atmosphere). Static fields do not radiate.[3]
| [2] | Source | Wavelength | Frequency | Biological Effects |
|---|---|---|---|---|
| UVC | Germicidal light | 100 nm - 280 nm | 1075 THz - 3000 THz | Skin – Erythema, inc. pigmentation; Eye – Photokeratitis (inflammation of cornea) |
| UVB | Tanning booth | 280 nm - 315 nm | 950 THz - 1075 THz | Eye – Photokeratitis (inflammation of cornea) Skin – Erythema, inc. pigmentation Skin cancer, Photosensitive skin reactions, Production of vitamin D |
| UVA | Black light, sunlight | 315 nm - 400 nm | 750 THz - 950 THz | Eye – Photochemical cataract Skin – Erythema, inc. pigmentation |
| Visible Light | lasers, sunlight, fire, LEDs, Light Bulbs | 400 nm - 780 nm | 385 THz - 750 THz | Skin photo-ageing, Skin cancer; Eye – Photochemical & thermal retinal injury |
| IR-A | lasers, remote controls | 780 nm - 1.4 µm | 215 THz - 385 THz | Eye – Thermal retinal injury, thermal cataract; Skin burn |
| IR-B | lasers, long-distance telecommunications | 1.4 µm - 3 µm | 100 THz - 215 THz | Eye – Corneal burn, cataract; Skin burn |
| IR-C | Far-infrared laser | 3 µm - 1 mm | 300 GHz - 100 THz | Eye – Corneal burn, cataract; Heating of body surface |
| Microwave | PCS phones, some mobile/cell phones, microwave ovens, cordless phones, motion detectors, radar, Wi-Fi | 1 mm - 33 cm | 1 GHz - 300 GHz | Heating of body surface |
| Radio Frequency Radiation | Mobile/Cell phones, television, FM, AM, Shortwave, CB, cordless phones | 33 cm - 3 km | 100 kHz - 1 GHz | Heating with ‘penetration depth’ of 10 mm, Raised body temperature |
| Low frequency RF | power lines | > 3 km | < 100 kHz | Cumulation of charge on body surface Disturbance of nerve & muscle responses |
| Static Field[3] | strong magnets, MRI | infinite | 0 Hz | Magnetic - vertigo/nausea, Electric - charge on body surface |
Ultraviolet light can cause burns to skin[6] and cataracts to the eyes.[6] Ultraviolet is classified into near, medium and far UV according to energy, where near ultraviolet is non-ionizing. Ultraviolet light produces free radicals that induce cellular damage, which can be carcinogenic. Ultraviolet light also induces melanin production from melanocyte cells to cause sun tanning of skin. Vitamin D is produced on the skin by a radical reaction initiated by UV radiation.
Plastic sunglasses (polycarbonate) generally absorb UV radiation. UV overexposure to the eyes causes snow blindness, which is a risk particularly on the sea or when there is snow on the ground.
Visible light causes few effects to the human body. Bright visible light irritates the eyes. Visible-light lasers have much more powerful effects and may damage the eyes even at small powers. Very strong visible light is used for cauterizing hair follicles.
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- Biological effects
- Effects on the Skin
- Effects on the Eyes
- Other Hazards
- Occupational Exposure Standards
- Biological effects
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- Effects on the Skin
- Effects on the Eyes
- Other Hazards
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- Occupational Exposure Standards
- Biological effects
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- Effects on the Skin
- Effects on the Eyes
- Other Hazards
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- Occupational Exposure Standards
- ^ Ionizing & Non-Ionizing Radiation.
- ^ a b Kwan-Hoong Ng (20th – 22nd October 2003). "[http://www.who.int/peh-emf/meetings/archive/en/keynote3ng.pdf Non-Ionizing Radiations – Sources, Biological Effects, Emissions and Exposures]".
- ^ a b c John E. Moulder. Static Electric and Magnetic Fields and Human Health.
- ^ Helv. Chim. Acta vol. 83 (2000), pp. 1766. [1]
- ^ Photochem. Photobiol. Sci., 2004, 3, 337 - 340, DOI: 10.1039/b316210a [2]
- ^ a b UW EH&S Hazards of Ultraviolet Light.