Are Pulsed Millimetre Waves For Biologicaltherapeutic Use Suitable To Avoid Thermal Effects And Magnify Specific Electromagnetic Effects

" From articles, reviews and meta-analysis, a special interest was given to low power exposure to MMW (approximately 10 mW/cm 2 or less). Excluding thermal effects, several exclusive electromagnetic interactions were presented, with mainly membrane and volt gated calcium channel as targets (VGcc), involving calcium influxes and water contribution. It appeared that thermal effects were not necessary and could be avoided. This led to consider and discuss the use of pulsed MMW signals (not continuous waves) that could limit or avoid thermal effects, allow lower power requirement, best spectral bandwidth targeting, and specific properties related to currents onset/cut-off." {Credits 1}

" As cited below, the several different mechanisms evoked here do not involve heating effects (at least those of significant contribution). Whereas not completely known, main target are clearly identified: VGcc, membrane, collective interactions, water structure, via electromagnetic, biophysical but not thermic mechanisms." {Credits 1}

{Credits 1} 🎪 Jean-claude Jc Debouzy, Flavia F Del Vecchio, Laure Lp Minier, Rachid R Jaoui, David D Crouzier. Are Pulsed Millimetre Waves For Biological/therapeutic Use Suitable To Avoid Thermal Effects And Magnify Specific Electromagnetic Effects?. 2022. ⟨hal-03807004⟩.