Millimeter (MM) wave and microwave frequency radiation produce deeply penetrating effects: the biology and the physics

June 5, 2021

Abstract: Millimeter wave (MM-wave) electromagnetic fields (EMFs) are predicted to not produce penetrating effects in the body. The electric but not magnetic part of MM-EMFs are almost completely absorbed within the outer 1 mm of the body. Rodents are reported to have penetrating MM-wave impacts on the brain, the myocardium, liver, kidney and bone marrow. MM-waves produce electromagnetic sensitivity-like changes in rodent, frog and skate tissues. In humans, MM-waves have penetrating effects including impacts on the brain, producing EEG changes and other neurological/neuropsychiatric changes, increases in apparent electromagnetic hypersensitivity and produce changes on ulcers and cardiac activity. This review focuses on several issues required to understand penetrating effects of MM-waves and microwaves: 1. Electronically generated EMFs are coherent, producing much higher electrical and magnetic forces then do natural incoherent EMFs. 2. The fixed relationship between electrical and magnetic fields found in EMFs in a vacuum or highly permeable medium such as air, predicted by Maxwell’s equations, breaks down in other materials. Specifically, MM-wave electrical fields are almost completely absorbed in the outer 1 mm of the body due to the high dielectric constant of biological aqueous phases. However, the magnetic fields are very highly penetrating. 3. Time-varying magnetic fields have central roles in producing highly penetrating effects. The primary mechanism of EMF action is voltage-gated calcium channel (VGCC) activation with the EMFs acting via their forces on the voltage sensor, rather than by depolarization of the plasma membrane. Two distinct mechanisms, an indirect and a direct mechanism, are consistent with and predicted by the physics, to explain penetrating MM-wave VGCC activation via the voltage sensor. Time-varying coherent magnetic fields, as predicted by the Maxwell-Faraday version of Faraday’s law of induction, can put forces on ions dissolved in aqueous phases deep within the body, regenerating coherent electric fields which activate the VGCC voltage sensor. In addition, time-varying magnetic fields can directly put forces on the 20 charges in the VGCC voltage sensor. There are three very important findings here which are rarely recognized in the EMF scientific literature: coherence of electronically generated EMFs; the key role of time-varying magnetic fields in generating highly penetrating effects; the key role of both modulating and pure EMF pulses in greatly increasing very short term high level time-variation of magnetic and electric fields. It is probable that genuine safety guidelines must keep nanosecond timescale-variation of coherent electric and magnetic fields below some maximum level in order to produce genuine safety. These findings have important implications with regard to 5G radiation.

Martin L Pall. Millimeter (MM) wave and microwave frequency radiation produce deeply penetrating effects: the biology and the physics. Rev Environ Health. 2021 May 26. doi: 10.1515/reveh-2020-0165.
https://pubmed.ncbi.nlm.nih.gov/34043892

Donate To Support Us

Not for Profit Organisation

STANZ is a not-for-profit organisation which relies on the good will of its members to run its operations. The only source of funding it currently receives are from donations from members and the public.

STANZ has an elected Coordinating Committee that meets regularly to organise the affairs and activities of the society.

Related Articles

Apple’s iPhone: widespread deception over the real SAR levels

We asked Dr. Arazi, President of Phonegate Alert, to review in detail the revelations made on August 21, 2019 by journalist and Pulitzer Prize winner Sam Roe in the Chicago Tribune and to place them in the overall context of the international Phonegate...

Follow Us

Social Media to keep up to date with the latest news and views

Donate

Support STANZ in its Mission to make Aotearoa New Zealand safe for people and the environment

Join Our Newsletter

Keep up to date with our quarterly newsletter summarising the most important news, views and campaign actions