Unknown authors
This technical report analyzed how radiofrequency electromagnetic fields are absorbed by the human body, measuring Specific Absorption Rate (SAR) for both partial-body and whole-body exposure scenarios. The research used mathematical models to calculate how much RF energy different parts of the body absorb at various frequencies. This type of analysis forms the foundation for understanding how wireless devices and other RF sources affect human tissue.
S. M. Michaelson
This conference paper by Michaelson examined how high-pressure environments (hyperbaria) interact with microwave radiation exposure, particularly focusing on thermal regulation effects in laboratory animals. The research explored whether pressure changes might alter how organisms respond to microwave energy absorption and heat dissipation.
Unknown authors
This government report examines the U.S. research program investigating biological effects from non-ionizing electromagnetic radiation, including microwaves, radiofrequency, and extremely low frequency fields. The program studied genetic effects, developmental impacts, nervous system changes, and behavioral responses across multiple organisms. This represents a comprehensive federal assessment of EMF bioeffects research priorities and findings.
Victor T. Tomberg
This review examined decades of research on biological effects from short wave and microwave radiation, focusing on high-power exposures. The study aimed to establish what biological damage occurs, why it happens, and what safety levels are needed for workers near high-power transmitters and radiating fields.
Unknown authors
This technical report describes a method for precisely measuring microwave power density using mathematical power equation techniques. The research focused on developing accurate calibration procedures for measuring the intensity of microwave electromagnetic fields. Such precise measurement methods are essential for understanding actual exposure levels from microwave-emitting devices.
Q. Balzano, O. Garay, K. Siwiak
This technical study analyzed electromagnetic fields very close to dipole antennas (common in cell phones and wireless devices) using advanced mathematical modeling. Researchers found that commonly used formulas for calculating near-field radiation intensity can give incorrect values, potentially underestimating actual exposure levels.
Unknown authors
This technical report examined environmental and health implications of microwave radiation from space-based solar power systems (SPS), including interactions with Earth's ionosphere and potential biological effects. The research addressed safety considerations for both space vehicles and ground-based populations exposed to high-power microwave transmission systems. The study represents early assessment of health risks from proposed orbital power generation technologies.
Unknown authors
This journalistic investigation examined microwave technology and electromagnetic radiation, exploring radio waves, wireless communications, and radar systems. The reporter-style piece appears to have covered the technical aspects and potential implications of microwave electromagnetic fields. This type of early journalism helped bring scientific understanding of microwaves to public attention.
CHANG-YING HU, SHI-CHENG LI
This technical study examined how microwave energy penetrates biological tissue during hyperthermia treatments. Researchers found that the direction of the electric field significantly affects how much microwave power tissue absorbs, and that using polarized electric fields can enhance penetration depth.
H. M. Altschuler
This conference paper by H.M. Altschuler focused on microwave techniques for biological research, including waveguide irradiation methods and geoelectric discontinuity detection. The research explored technical approaches for using microwave technology in biological studies. This represents early work establishing methodologies that would later be used to investigate microwave effects on living systems.
Unknown authors
This technical report represents Chapter III of a comprehensive review examining the biological effects of radiofrequency and microwave electromagnetic radiation. The document analyzes research on how RF-microwave exposures interact with living systems, covering the spectrum of frequencies used in wireless communications, radar, and industrial heating applications.
Richard A. Tell et al.
Researcher R.A. Tell developed an automated system for measuring radiofrequency electromagnetic field intensities in environmental settings. This technical report describes equipment and methods for continuous monitoring of RF radiation levels in our surroundings. Such measurement systems are essential for understanding real-world EMF exposures from sources like cell towers, broadcast antennas, and wireless infrastructure.
Bill Rados
This study examined video display terminals (VDTs) for various types of radiation emissions including X-rays, radiofrequency, microwave, and ultrasound. The research found that VDTs passed medical safety tests, indicating radiation levels were within acceptable limits. This work contributed to early workplace safety standards for computer monitors.
Richard L. Magin, Shin-Tsu Lu, Sol M. Michaelson
Researchers exposed dogs' thyroid glands to 2450 MHz microwave radiation (the same frequency used in microwave ovens) and found changes in thyroxine hormone production. The study concluded these effects were caused by tissue heating rather than non-thermal biological mechanisms. This demonstrates that microwave radiation can disrupt normal thyroid function through thermal effects.
Unknown authors
This technical glossary document provides definitions and reference information for electromagnetic field research terminology, including microwave effects, radiofrequency dosimetry, and ionizing radiation concepts. The document appears to be an appendix defining key terms used in EMF health research, covering everything from cataract formation to exposure measurement systems. Such reference materials help standardize terminology across the complex field of electromagnetic bioeffects research.
Unknown authors
This technical report reviewed the biological effects of radiofrequency and microwave radiation to develop exposure standards. The research examined how RF-microwave energy interacts with living systems across different frequencies and exposure conditions. This type of comprehensive review typically informs safety guidelines and regulatory decisions about electromagnetic field exposure limits.
Goro Matsumoto
This conference paper by Matsumoto examined the biological effects of microwave radiation on living organisms, focusing on both thermal (heating) and non-thermal effects. The research investigated radar hazards and how microwave exposure impacts biological systems. This type of foundational research helps establish the scientific basis for understanding microwave radiation's health effects.
Sol M. Michaelson
This foundational study by Michaelson examined the thermal effects of microwave radiation on biological systems, establishing early scientific understanding of how microwave energy heats living tissue. The research was part of a comprehensive Virginia symposium series examining microwave radiation's health implications. This work laid important groundwork for understanding how microwave exposure creates heat in the body.
Sol M. Michaelson
This comprehensive literature review by Michaelson analyzed over 100 studies on microwave radiation's biological effects, focusing on thermal mechanisms. The review found mixed evidence across different exposure scenarios and biological systems. This represents one of the early systematic attempts to understand how microwave energy affects living organisms.
C. J. Chilton
This review examined research on biological radio communication, exploring whether humans and other organisms might naturally transmit or receive electromagnetic signals. The study investigated concepts like telepathy, biocurrents, and electromagnetic field interactions with biological systems. While no specific findings are available, this represents early scientific inquiry into whether living beings use electromagnetic frequencies for communication.
S. Hopfer
This technical research developed an ultra-broadband probe capable of measuring RF radiation across a wide range of frequencies using resistive strip antenna technology. The probe was designed to provide accurate measurements of microwave and other RF emissions from various sources. This type of measurement technology is essential for assessing actual EMF exposure levels in our environment.
Unknown authors
Researchers measured the amplitude modulation patterns of microwave radiation leaking from 2450 MHz and 915 MHz microwave ovens using specialized 3-D probes. They found that the internal mode-stirrer mechanism creates low-frequency amplitude modulation in the leaked radiation. This matters because amplitude-modulated microwaves may have different biological effects than steady radiation.
Unknown authors
This US Army technical manual examined microwave oven radiation safety protocols, bioeffects, and operational hazards for military personnel. The document addressed electromagnetic radiation exposure risks and safety procedures for microwave oven use in military settings. This represents official military recognition of microwave radiation as a legitimate health and safety concern requiring formal training protocols.
James Greene
This study examined microwave diathermy, a medical treatment that uses microwave radiation to generate therapeutic heat deep within body tissues. The research explored how controlled microwave exposure can provide healing benefits through targeted tissue heating. This medical application demonstrates that microwaves can produce measurable biological effects in human tissue.
Peter W. Barber et al.
Researchers used computer models to study how microwave radiation penetrates different layers of human tissue (skin, fat, muscle). They discovered that the body's layered structure creates a resonance effect at 1.8 GHz, causing 34% more radiation absorption than previously predicted by simpler models.
