Results 121 to 130 of about 1,954,630 (202)
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Journal of the Franklin Institute, 1973
Abstract This paper summarizes biophysical and bioengineering studies of biological hazards which may result from exposure to microwaves. Various phases of this study include: determination of the electrical characteristics of body tissues; determination of microwave and membrane characteristics; studies of a variety of electromechanical phenomena ...
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Abstract This paper summarizes biophysical and bioengineering studies of biological hazards which may result from exposure to microwaves. Various phases of this study include: determination of the electrical characteristics of body tissues; determination of microwave and membrane characteristics; studies of a variety of electromechanical phenomena ...
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Atomistic simulation of displacement damage and effective nonionizing energy loss in InAs
PHYSICAL REVIEW MATERIALS, 2021A molecular dynamics (MD) method, along with the analytical bond-order potential, is applied to study defect production in InAs. This potential is modified to obtain a better description for point-defect properties and is extended for proper applications
Nanjun Chen +4 more
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Effects of nonionizing radiation on birds
Comparative Biochemistry and Physiology Part A: Physiology, 19881. With the ability to fly comes a greater probability of direct irradiation by nonionizing radiation. The effect of nonionizing radiation on birds is, therefore, of environmental significance. 2. Most biological effects of exposure to nonionizing radiation in avian species are a result of radiation-induced temperature increases. 3.
T E, Bryan, R P, Gildersleeve
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Clinical Aspects of Nonionizing Radiation
IEEE Transactions on Biomedical Engineering, 1972Various types of human injury attributable to nonionizing radiations are presented. Because of the unique combination afforded by the optical qualities of the eye and by the differential diagnostic features of resultant ocular pathology, an ophthalmological examination frequently can provide the signature indicating whether visible or invisible ...
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TRANSMITTANCE OF NONIONIZING RADIATION IN HUMAN TISSUES*
Photochemistry and Photobiology, 1981Abstract— Spectral transmittance of 400–865 nm radiation through various human structures, including the skull with scalp, the chest wall, abdominal wall and scrotum, is presented. There is essentially no visible light of wavelengths shorter than 500 nm transmitted through the chest or the abdominal wall.
S, Wan +3 more
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Nonionizing Radiation Around Linear Accelerators
Applied Occupational and Environmental Hygiene, 1995Abstract The World Health Organization, the International Radiation Protection Association (IRPA), and the American Conference of Governmental Industrial Hygienists have recommended using time-weighted and time-dependent standards for nonionizing radiation exposure assessment.
Michel S. Israel +3 more
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Nonionizing Radiation Safety and Regulations
2023Nonionizing radiation cannot ionize the human body tissues due to its low energy; however, its thermal, mechanical, chemical, vibrational, and several other effects can create complications. To avoid hazards and complications from nonionizing radiation, it is mandatory to establish and follow proper rules and regulations while dealing with such ...
Norman E. Bolus, Muhammad Maqbool
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A Unified Quantitative Index to Assess Nonionizing Radiation Safety
IEEE Consumer Electronics Magazine, 2023Hao Wang +5 more
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Nonionizing Radiation: Broadband Optical
Patty's Industrial Hygiene, 2021M. Phillips, Allene H. Butler
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