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Exposure to Non-Ionizing Radiation and Childhood Cancer: A Meta-Analysis
, 2020Background: A slight increase in the childhood cancer trend has been observed for the past few decades. Non-ionizing radiation is one of the environmental factors linked to childhood cancers. This review is conducted to assess the association between non-
Aznida Mohamad Zaki +4 more
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Proposal for dosimetry of non-ionizing radiation
Lasers in Medical Science, 1989In general “Dose” by itself as an amount of energy is not a relevant parameter for the description of penetration by non-ionizing (laser) radiation. But dosimetry should not only include the measurements of relevant parameters and its relatioships to tissue effects but also include all possibilities of measurements and relationships which help to ...
K. Dörschel, T. Brodzinski
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A novel database of bio-effects from non-ionizing radiation
Reviews on Environmental Health, 2018A significant amount of electromagnetic field/electromagnetic radiation (EMF/EMR) research is available that examines biological and disease associated endpoints.
Victor Leach, S. Weller, Mary Redmayne
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Photonic and non-ionizing cosmic radiation
Physica, 1946Summary We extended our investigations concerning the amount of photons and particles in cosmic radiation, to the region of energies higher than 10 7 evolts. For this purpose we recorded simultaneously the ionizing particles and the non-ionizing ones which produced in a layer of lead at least one or two electrons (principle of anticoincidences).
C. Levert, J. Clay
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A History of the International Commission on Non-Ionizing Radiation Protection.
Health Physics, 2017Concern about health risks from exposure to non-ionizing radiation (NIR) commenced in the 1950s after tracking radars were first introduced during the Second World War.
M. Repacholi
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Non-ionizing radiation: Fact and fiction [PDF]
Technology and Society, 1981 Public awareness of the “potential health hazards” of RF and microwave radiation dates from the disclosure, in 1972, of Russian irradiation of the U.S. Embassy in Moscow. Previously, so-called “death rays” had been relegated to the pages of science fiction.
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Non-ionizing Electromagnetic Radiation and Environmental Security [PDF]
, 2004 Electromagnetic radiation (ER) is an essential component of the Universe. ER is generated by stars, including Sun, all the time. From these sources, ER with the speed of light, reaches all other objects in the Universe, including Earth. All other objects in the Universe (including Earth) also generate (radiate with the intensity which depends on ...
Andrejs Silins, Ilgonis Klavins
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Metrological aspects of non-ionizing radiation control
Automation and Remote Control, 2011Domestic and foreign regulatory databases regarding the allowable levels of nonionizing radiation are analyzed; as the result, major requirements to measuring devices used in non-ionizing radiation control are formulated. A brief description of P3-31 electromagnetic radiation meter (which satisfies the stated requirements) is provided.
V. V. Khilov, V. P. Khilov
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Effects of Non-Ionizing Radiations on Viruses
1957Publisher Summary This chapter discusses the effects of nonionizing radiations on specific biological activities of viruses. Both (ionizing and nonionizing) kinds of radiations are electromagnetic waves emitted in quanta and they differ from one another only in the ranges of their wavelengths.
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2010
Radiation-protection regulations concern ionizing radiation like α, β, γ radiation and neutrons. Separate regulations concern the handling of X rays and X-ray-generating devices. γ radiation and X rays are electromagnetic waves: they differ from visible light or microwave radiation only by their energy or, equivalently, by their frequency or wavelength.
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Radiation-protection regulations concern ionizing radiation like α, β, γ radiation and neutrons. Separate regulations concern the handling of X rays and X-ray-generating devices. γ radiation and X rays are electromagnetic waves: they differ from visible light or microwave radiation only by their energy or, equivalently, by their frequency or wavelength.
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