W.A.D. Anderson et al. · 1959
This 1959 University of Miami research examined microwave radiation's biological effects on experimental animals, studying factors like environmental temperature, air circulation, and survival rates. The study represents early systematic investigation into microwave radiation hazards during the Cold War era when military radar systems were rapidly expanding. This foundational research helped establish protocols for studying electromagnetic field biological effects that continue influencing EMF safety research today.
H. KALANT · 1959
This 1959 review by Dr. H. Kalant examined the published scientific literature on physiological hazards from microwave radiation exposure. The study surveyed existing research to assess potential biological effects and safety concerns for personnel working with microwave technology. This represents early recognition that microwave radiation could pose health risks to humans.
O. M. Salati · 1959
This 1959 conference paper by Salati examined how human biological materials absorb microwave radiation, focusing on electromagnetic field interactions and radar cross-section measurements. The research investigated the fundamental properties of how microwave energy penetrates and is absorbed by human tissue. This early work helped establish scientific understanding of microwave-tissue interactions that remains relevant to modern EMF exposure assessment.
Charles Süsskind and Staff · 1959
This 1959 technical report by Charles Susskind examined how microwave radiation affects cellular function and lifespan in biological organisms. The research represented early scientific investigation into the biological effects of microwave exposure, focusing on fundamental cellular processes and longevity impacts. This work helped establish the foundation for understanding how microwave frequencies interact with living tissue.
B. S. Jacobson, S. B. Prausnitz, C. Susskind · 1959
Researchers in 1959 exposed mice to 3-centimeter wavelength microwave radiation to study how electromagnetic energy affects body temperature regulation in mammals. The study found that microwave exposure could be used as a research tool to investigate thermal balance and heat exchange processes in warm-blooded animals. This early research laid groundwork for understanding how microwave radiation interacts with biological systems.
J. J. Windle, T. M. Shaw · 1959
This 1953 study measured how water content in wool fibers affects the absorption of microwave radiation at 3000 and 9300 MHz frequencies. Researchers found that as water content increased up to 19%, the wool absorbed significantly more microwave energy, making further measurements impossible due to excessive power loss.
W. A. D. Anderson et al. · 1959
This 1959 University of Miami technical report documented early microwave radiation research, examining biological effects across multiple organisms. The study represents foundational work in understanding how microwave frequencies interact with living systems. This research laid groundwork for decades of investigation into microwave radiation's health impacts.
Barron CI · 1959
This 1959 medical review examined the health considerations for workers exposed to radar microwaves, focusing on occupational safety protocols and medical surveillance needs. The study addressed early concerns about microwave exposure from radar systems that were becoming widespread in military and civilian applications. This represents one of the earliest formal medical assessments of microwave radiation exposure in occupational settings.
Johnson W, Kindsvatter VH, Shaw CC · 1959
This 1959 Navy study examined radiation hazards aboard the U.S.S. Galveston, a guided missile cruiser equipped with high-power radar systems. The research documented health risks to crew members from both microwave radar emissions and ionizing X-ray radiation. The study provided practical guidance for ship medical officers to protect personnel from these newly recognized occupational radiation exposures.
H. P. Schwan et al. · 1959
This 1959 technical report by H.P. Schwan examined how microwave radiation affects human body tissues, focusing on absorption patterns and thermal effects. The research studied how microwaves interact with human biological systems and measured their absorption characteristics. This represents early foundational work on understanding microwave exposure effects on humans.
Charles Susskind · 1959
This 1959 conference brought together military researchers from the Army, Navy, and Air Force to examine biological effects of microwave equipment. The tri-service collaboration addressed growing concerns about health impacts from radar systems and other microwave technologies being deployed across military operations. This represents one of the earliest formal military acknowledgments that microwave radiation could affect human biology.
LT Kermit R. Meade, USCG · 1959
This 1959 study by Meade examined radio frequency radiation hazards from radar systems, focusing on safe operating distances and power density measurements around radar antennas. The research addressed growing concerns about RF exposure risks as radar technology expanded in military and civilian applications during the post-war era.
Unknown authors · 1959
This 1959 technical report documented an investigators conference focused on the biological effects of electronic radiating equipment. The conference brought together researchers to discuss radiation hazards from various electronic devices during the early era of widespread electronic technology adoption. This represents one of the earliest formal scientific gatherings to address potential health effects from electronic radiation exposure.
WALTER JOHNSON, VICTOR H. KINDSVATTER, CHRISTOPHER C. SHAW · 1959
This 1959 Navy study documented radiation hazards aboard the USS Galveston, a guided missile cruiser equipped with high-powered radar systems. The research identified specific health risks to crew members from both microwave radar radiation and ionizing X-ray radiation. The study provided practical guidance for ship medical officers to recognize and protect against these occupational radiation exposures.
George Pish et al. · 1959
This 1959 technical report investigated using magnetic resonance absorption spectroscopy to study how microwaves affect biological materials. The research explored a novel scientific method for detecting microwave-induced changes in living tissue. This represents early recognition that microwave radiation could measurably alter biological systems.
Dr. Charles Susskind · 1959
This 1959 technical report documented the Third Annual Tri-Service Conference on Biological Effects of Microwave Radiating Equipment, bringing together military researchers to discuss microwave health effects. The conference represented early government recognition that microwave radiation from radar and communication systems could impact human biology. This document captures the state of microwave bioeffects research during the Cold War era when military applications drove scientific inquiry.
Frank Leary · 1959
This 1959 research examined health hazards from microwave radiation, focusing on radar systems and measuring devices used in military and industrial applications. The study reviewed biological effects of radiofrequency energy on living organisms during the early era of microwave technology development. This represents some of the earliest scientific investigation into microwave health risks, decades before consumer microwave ovens became common.
Louis Daily Jr. et al. · 1959
This 1950 study by L. Daily examined the effects of microwave diathermy (therapeutic microwave heating) on animal eyes, measuring temperature changes and documenting potential ocular damage. The research investigated how microwave energy used in medical treatments might affect eye tissues, providing early evidence of microwave-induced biological effects decades before widespread consumer microwave technology.
R. Stuart Mackay · 1959
This 1959 technical paper discussed electrical and radiation hazards present in laboratory settings, emphasizing the need for constant safety reminders since even experienced workers can forget about common dangers that could lead to injury or death. The paper served as an early safety guide for laboratory personnel working with electrical equipment and radiation sources.
Robert T. Nieset et al. · 1959
This 1959 quarterly technical report examined how microwave radiation affects neural function, representing some of the earliest formal research into electromagnetic effects on the nervous system. The study focused on understanding the biological mechanisms by which microwave energy interacts with neural tissue. This research helped establish the foundation for decades of investigation into EMF effects on brain and nervous system function.
William B. Deichmann, M. Keplinger, E. Bernal · 1959
This 1959 technical report by researchers Deichmann, Keplinger, and Bernal examined the relationship between interrupted pulsed microwave radiation and potential biological hazards. The study represents early scientific investigation into how pulsed microwave exposure patterns might affect living systems differently than continuous wave exposure. This research laid groundwork for understanding microwave safety protocols during the early development of radar and microwave technologies.
J. R. Mallard, J. G. Lawn · 1959
This 1959 study examined how microwaves are absorbed differently by various human tissues, finding that healthy tissues absorb microwaves at rates up to 20 times different than fat tissue. The research suggested these absorption differences could potentially be used to locate tumors and distinguish between healthy and diseased tissue.
Victor T. Tomberg · 1959
This 1959 conference paper examined the harmful biological effects of microwave radiation, focusing on thermal heating mechanisms and temperature gradients in living tissue. The research explored how microwaves cause dielectric heating through the Joule effect, creating uneven heating patterns that could damage biological systems. This represents early scientific recognition that microwave radiation poses biological risks beyond simple heating.
Sol M. Michaelson, Roderick A. E. Thomson, Joe W. Howland · 1959
This 1959 study examined how animals respond to heat from microwave radiation compared to heat from increased environmental temperature. Researchers characterized the thermal (heat) responses in animals exposed to microwaves to understand whether microwave heating differs from conventional heating. This was pioneering research into the biological effects of microwave exposure during the early development of radar and microwave technology.
Russell L. Carpenter et al. · 1959
Researchers exposed 86 rabbit eyes to 2450 MHz microwave radiation at power densities of 0.12 to 0.40 watts per square centimeter, documenting the formation of cataracts. The study established specific thresholds for when eye damage occurs based on exposure time and power levels. This early research provided crucial evidence that microwave radiation can cause permanent eye damage.
