Willis Jackson · 1946
This 1946 technical study by Jackson established methods for measuring how materials interact with microwave radiation at centimeter wavelengths. The research focused on developing standardized techniques and terminology for characterizing dielectric properties, which describe how substances respond to electromagnetic fields. This foundational work helped establish the scientific framework still used today to understand how microwaves interact with biological tissues.
Maj Bernard J. Lidman, MC, Capt Clarence Cohn, MC · 1945
This 1945 Naval Research Laboratory study examined 45 radar operators exposed to radar emissions for up to 9 years, finding no blood abnormalities or health effects. Parallel animal studies on guinea pigs also showed no reproductive, behavioral, or tissue changes from heavy radar exposure.
Ed. Gilles · 1944
This 1944 study by Gilles investigated how ultrashort waves (microwave radiation) kill microorganisms like bacteria. The research examined the lethal effects of this electromagnetic radiation on various microbes, providing early evidence that microwaves can damage living biological systems. This work helped establish that electromagnetic fields can have profound biological effects at the cellular level.
H. Schaefer, H. Schwan · 1943
This 1973 research examined how small particles heat up differently when exposed to ultrashort wave (high-frequency) electromagnetic fields in a condenser setup. The study investigated selective heating patterns, where certain particles absorb more energy than others under specific electromagnetic conditions. This early work helped establish fundamental principles about how electromagnetic energy interacts with small-scale materials.
Daily LE · 1943
This 1943 clinical study examined the health effects of radar and high-frequency radio exposure on laboratory personnel during World War II. The research represents one of the earliest documented investigations into occupational EMF exposure in workers handling radar equipment. This pioneering study helped establish the foundation for understanding potential health risks from high-powered electromagnetic radiation in workplace settings.
Daily LE · 1943
This 1943 clinical study examined laboratory personnel exposed to radar and high-frequency radio equipment, conducting blood counts and physical examinations to assess health effects. The research represents one of the earliest documented investigations into occupational EMF exposure from radar technology. This wartime study established a foundation for understanding potential health impacts from high-powered electromagnetic radiation sources.
L. Eugene Daily · 1943
This 1943 clinical study examined the health effects of radar and high-frequency radio exposure on laboratory personnel during World War II. The research represents one of the earliest documented investigations into occupational EMF exposure, conducted when radar technology was rapidly expanding. The study's mixed findings highlight the early recognition that electromagnetic fields could affect human health in workplace settings.
Kenneth S. Cole, Robert H. Cole · 1941
This 1941 foundational study by Cole established the mathematical framework for understanding how electromagnetic fields interact with different materials, including biological tissues. The research developed the Cole-Cole equation, which describes how materials absorb and disperse electromagnetic energy across different frequencies. This work became the scientific basis for measuring how EMF penetrates and affects living tissue.
C. F. Wagner, G. D. McCann, Edward Beck · 1941
This 1941 engineering study examined lightning strikes and electrical currents, measuring how lightning creates multiple electrical discharges and the wave patterns of these currents. Researchers found clear differences between direct lightning strikes and the electrical currents they produce in lightning arresters (protective devices).
Hasche E. · 1940
This 1940 study by Hasche examined how short wave radiofrequency radiation affects biological tissue in both human and animal subjects. The research represents one of the earliest scientific investigations into RF energy's biological effects, conducted during the early development of radio technology. This foundational work helped establish the field of bioelectromagnetics research.
FRANK HAMMOND KRUSEN, M.D. · 1939
This 1939 preliminary report by Dr. F.H. Krusen examined short wave diathermy, a medical therapy using radiofrequency electromagnetic fields to generate deep tissue heating. The study represents early medical research into controlled EMF exposure for therapeutic purposes, documenting effects of RF radiation on human patients during clinical treatment.
Frenkel, G. L. · 1937
This 1937 research examined the biological effects of VHF-HF (very high frequency to high frequency) electromagnetic fields, representing some of the earliest scientific investigation into how radio frequency radiation affects living systems. The study documented various characteristics of how biological organisms respond to these electromagnetic exposures. This pioneering work laid groundwork for understanding RF bioeffects decades before widespread wireless technology adoption.
Coulter JS, Carter HA · 1936
This 1936 study examined how short wave diathermy (therapeutic electromagnetic heating) raises temperatures in human tissues. Researchers Coulter and Carter investigated the heating effects of radio frequency electromagnetic fields on the human body. This early research helped establish understanding of how EMF energy converts to heat in biological tissue.
Wilhelm Krasny-Ergen · 1936
This 1936 study by W. Krasny-Ergen examined how alternating electrical fields affect colloids (tiny particles suspended in liquid) through non-thermal mechanisms. The research focused on biological effects that occur without heating, specifically studying how electrical vibrations and induction powers influence microorganisms. This represents early scientific recognition that electromagnetic fields can produce biological effects beyond simple heating.
G. C. Southworth · 1936
This 1936 Bell Telephone Laboratories technical paper describes early experimental methods for measuring radio frequencies above 1 billion cycles per second using hollow metal pipes called wave guides. Researchers developed new transmission techniques to push beyond the frequency measurement limits of that era. The work laid groundwork for high-frequency electromagnetic wave research and applications.
Prof. W. E. Curtis, F.R.S., Dr. F. Dickens, and S. F. Evans · 1936
This 1936 research by Curtis examined the specific biological effects of ultra-short wireless waves, representing one of the earliest scientific investigations into radiofrequency radiation's impact on living systems. The study explored how these short-wave radio transmissions might produce distinct biological responses, laying groundwork for decades of EMF health research that followed.
Carol B. Pratt, Charles Sheard · 1935
This 1935 research by Dr. C.B. Pratt examined how radiofrequency diathermy treatments changed tissue temperatures in animal subjects. The study investigated thermal effects from short-wave radio frequency applications used in medical radiotherapy. This represents early scientific documentation of how RF energy produces measurable heating effects in biological tissues.
Henry Bordier · 1935
This 1935 French study by Dr. Bordier examined combining radiotherapy with electrical treatments (diathermy and galvanization) for treating infantile paralysis, now known as poliomyelitis. The research represents early medical use of electromagnetic fields as therapeutic tools. This historical work provides insight into how electromagnetic energy was applied medically before modern safety standards existed.
C. J. BREITWIESER, JOHN SEVERY HIBBEN · 1935
This 1935 technical analysis examined different machines used for artificial fever production in physical therapy, focusing on their physical characteristics rather than medical effects. The research aimed to separate facts from fallacies about RF heating equipment by conducting standardized physical tests. This represents early scientific documentation of RF energy's heating properties in medical devices.
Harry Bond Wilmer, M.D., Merle Middour Miller, M.D. · 1935
This 1935 study examined the use of physical therapy treatments, including diathermy (electromagnetic heating) and ultraviolet light, for treating allergic conditions like asthma and hay fever. The research represents early medical applications of electromagnetic fields for therapeutic purposes, predating modern understanding of EMF health effects.
Bernard Mortimer, Stafford L. Osborne · 1935
This 1935 study examined how short wave diathermy devices heat human tissue using radiofrequency electromagnetic fields. The research investigated the thermal effects of electromagnetic currents on biological tissue, representing early scientific work on how RF energy interacts with the human body. This foundational research helped establish understanding of electromagnetic heating mechanisms that remain relevant to modern EMF exposure concerns.
HAROLD NEIFELD, M.D. · 1935
This 1935 study by Neifeld examined how electric currents affected human breathing patterns, investigating both galvanic treatment and diathermy applications on respiratory movements. The research represents early scientific investigation into how electrical exposures directly influence basic human physiological functions. This work provides historical context for understanding how electromagnetic fields can affect vital bodily processes.
Franz Nagelschmidt, M.D. · 1935
This 1935 medical research examined improved methods for applying condenser field diathermy, a therapeutic technique using short-wave radiofrequency energy to heat body tissues. The study focused on electrode placement and field application techniques for medical treatments. This represents early documentation of intentional RF exposure for therapeutic purposes.
Kiewe, R. · 1935
This 1935 German research by R. Kiewe investigated how short wave radio frequency radiation affects human eyes through experimental testing. The study represents one of the earliest documented investigations into potential eye damage from RF exposure. This pioneering work established a foundation for understanding ocular effects from electromagnetic radiation decades before widespread wireless technology adoption.
TIBOR DE CHOLNOKY, M.D. · 1935
This 1935 study by Dr. T.D. Cholnoky examined the use of short wave radiofrequency therapy to treat pyogenic skin infections, including furuncles (boils). The research investigated whether controlled RF energy could serve as an effective medical treatment for bacterial skin conditions. This represents early medical application of the same type of electromagnetic energy we're now concerned about from wireless devices.
