Human auditory system response to modulated electromagnetic energy.
@article{Frey1962HumanAS,
title={Human auditory system response to modulated electromagnetic energy.},
author={Allan H. Frey},
journal={Journal of applied physiology},
year={1962},
volume={17},
pages={
689-92
}
}The intent of this paper is to bring a new phenomenon to the attention of physiologists. Using extremely low average power densities of electromagnetic energy, the perception of sounds was induced in normal and deaf humans. The effect was induced several hundred feet from the antenna the instant the transmitter was turned on, and is a function of carrier frequency and modulation. Attempts were made to match the sounds induced by electromagnetic energy and acoustic energy. The closest match…
146 Citations
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References
SHOWING 1-10 OF 11 REFERENCES
SEIPEL . J . Wash . Acad . Sci . S . S . STEVENS , AND M . H . LURIE . J . Acoust . Sot . Am
- 1949
Aero Space Med. 32 : I I 40, I g6 I
a second paper by Alan Frey Hearing in Electromagnetic Fields (extract) by Clyde E Ingalls file:///D|/Thattes%20Waves%20Auditory%20pheno/Allan%20Frey.htm
- AM] Allan Frey HOME PAGE file:///D|/Thattes%20Waves%20Auditory%20pheno/Allan%20Frey.htm
- 1940
Ann. Rept
- Ann. Rept
- 1961
Aero Space Med
- 1961
Zwislocki, J. Noise Control
- Zwislocki, J. Noise Control
- 1958
Yale J Biol.and Med
- Yale J Biol.and Med
- 1949
J.Acoustic.Soc. Am
- J.Acoustic.Soc. Am
- 1940
USAF Rome Air Development Command
- 1961
J. Wash. Acad. SCI
- J. Wash. Acad. SCI
- 1960