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Herman P. Schwan: 1985 Recipient of the d'Arsonval Medal

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Richard D. Phillips · 1986

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Herman Schwan's pioneering bioelectromagnetics research established the scientific foundation for modern EMF safety standards.

Plain English Summary

Summary written for general audiences

This 1986 journal publication honored Herman Schwan with the d'Arsonval Medal, recognizing his pioneering contributions to bioelectromagnetics research. Schwan's work established foundational understanding of how electromagnetic fields interact with biological tissues. His research helped shape the scientific framework we use today to evaluate EMF health effects.

Why This Matters

Herman Schwan's recognition with the d'Arsonval Medal represents a pivotal moment in bioelectromagnetics history. His groundbreaking research in the 1950s and 1960s established the mathematical and experimental foundations for understanding how electromagnetic fields penetrate and affect living tissue. This work became the scientific bedrock for modern EMF safety standards and exposure guidelines.

What makes Schwan's legacy particularly relevant today is how his tissue interaction models are still used to evaluate everything from cell phone radiation to wireless device safety limits. The reality is that much of our current regulatory framework traces back to principles Schwan helped establish decades ago, before the explosion of wireless technology we live with today.

Exposure Information

Specific exposure levels were not quantified in this study.

Cite This Study
Richard D. Phillips (1986). Herman P. Schwan: 1985 Recipient of the d'Arsonval Medal.
Show BibTeX
@article{herman_p_schwan_1985_recipient_of_the_d_arsonval_medal_g4930,
  author = {Richard D. Phillips},
  title = {Herman P. Schwan: 1985 Recipient of the d'Arsonval Medal},
  year = {1986},
  
  
}

Quick Questions About This Study

Herman Schwan was a pioneering scientist who developed fundamental theories about how electromagnetic fields interact with biological tissues. His work in the 1950s-1960s established mathematical models still used today to evaluate EMF safety and tissue heating effects.
The d'Arsonval Medal is the highest honor in bioelectromagnetics research, awarded by the Bioelectromagnetics Society. It recognizes scientists who have made exceptional contributions to understanding how electromagnetic fields affect biological systems and human health.
Schwan's foundational research established the scientific principles underlying current EMF safety standards. His tissue interaction models are still used to evaluate modern wireless devices, making his decades-old work directly relevant to today's smartphone and WiFi exposure assessments.
Schwan developed mathematical models describing how electromagnetic energy penetrates and heats biological tissue. These models became the basis for specific absorption rate (SAR) limits used today to regulate cell phone radiation and other wireless device emissions.
Schwan was among the first to quantify how different frequencies of electromagnetic radiation interact with living tissue. He established the scientific methodology for measuring tissue heating and field penetration that researchers still use to study EMF biological effects.