8,700 Studies Reviewed. 87.0% Found Biological Effects. The Evidence is Clear.
Shield Your Body
Whole Body / General

PLASMA EFFECTS IN SEMICONDUCTORS AND BIOLOGICAL EFFECT OF RADIOWAVES

Bioeffects Seen

D. A. Frank-Kamenetskii · 1960

Share:

1961 research connected semiconductor physics with biological radio wave effects, establishing early theoretical foundations for EMF bioeffects science.

Plain English Summary

Summary written for general audiences

This 1961 research explored connections between plasma effects in semiconductor materials and biological effects of radio waves. The study examined how electromagnetic energy might affect living systems through similar mechanisms observed in semiconductor physics. This early work helped establish theoretical foundations for understanding how radio frequency radiation interacts with biological tissue.

Why This Matters

This pioneering 1961 research represents a crucial moment in EMF science when physicists first began connecting semiconductor behavior with biological effects of radio waves. Frank-Kamenetskii's work was decades ahead of its time, exploring how electromagnetic fields might influence living systems through mechanisms similar to those observed in electronic materials. The science demonstrates that even in 1961, researchers recognized potential parallels between how radio waves affect semiconductors and biological tissue. What makes this particularly relevant today is that we're now surrounded by radio frequency radiation from devices that didn't exist when this foundational research was conducted. Your smartphone, WiFi router, and wireless devices all emit the same type of radio waves this early research identified as having biological effects. The reality is that this work laid important groundwork for understanding EMF bioeffects, yet regulatory agencies still largely ignore these early insights when setting exposure standards.

Exposure Information

Specific exposure levels were not quantified in this study.

Cite This Study
D. A. Frank-Kamenetskii (1960). PLASMA EFFECTS IN SEMICONDUCTORS AND BIOLOGICAL EFFECT OF RADIOWAVES.
Show BibTeX
@article{plasma_effects_in_semiconductors_and_biological_effect_of_radiowaves_g3968,
  author = {D. A. Frank-Kamenetskii},
  title = {PLASMA EFFECTS IN SEMICONDUCTORS AND BIOLOGICAL EFFECT OF RADIOWAVES},
  year = {1960},
  
  
}

Quick Questions About This Study

The study explored how plasma effects observed in semiconductor materials might provide insights into how radio waves affect biological systems, suggesting similar electromagnetic interaction mechanisms operate in both electronic materials and living tissue.
Plasma effects involve how electromagnetic fields influence charged particles in materials. Understanding these mechanisms in semiconductors helped researchers theorize how similar processes might occur in biological tissue when exposed to radio waves.
This early work established theoretical frameworks for understanding electromagnetic bioeffects that remain relevant today. Modern devices use the same radio frequency radiation this research identified as having biological significance through semiconductor-like mechanisms.
The research was groundbreaking because it applied solid-state physics principles to biological systems, suggesting that electromagnetic interactions in living tissue might follow similar patterns to those observed in electronic materials.
Yes, this early theoretical work provided scientific foundation for understanding how radio waves interact with biological systems, supporting the premise that electromagnetic fields can have measurable effects on living tissue through established physical mechanisms.