Did you know that sound has an important effect on you?


 Scientific Note

Modern biophysics recognises that biological regulation involves both molecular and field-based mechanisms.

Cells communicate through ultra-weak electromagnetic and photonic emissions — a phenomenon confirmed in the works of F.-A. Popp and others.

Research in bioelectromagnetics shows that low-frequency fields can modulate cell repair and gene expression.

The OMARIDIN™ audio matrix uses this principle by translating the molecular vibration of the compound into a sound spectrum capable of resonating with the body’s natural biofields.


Scientific Background of the OMARIDIN™ Audio Matrix

Recent studies in biophysics and quantum biology confirm that biological systems can respond not only to biochemical stimuli but also to electromagnetic and vibrational signals.

Every molecule, including those in the human body, emits and responds to characteristic frequencies that influence structural organisation and regulatory coherence.

Research by Fritz-Albert Popp (University of Kaiserslautern, Germany) demonstrated that living cells emit biophotons — ultra-weak light signals used for intercellular communication and synchronisation.

Similarly, studies in bioelectromagnetics show that low-intensity electromagnetic fields can modulate gene expression, enzymatic activity, and cell repair mechanisms (Blank & Goodman, Electromagnetic Biology and Medicine, 2011).

The OMARIDIN™ Audio Matrix translates the molecular vibrational spectrum of the physical compound into an auditory format.

This form of wave-information resonance acts through the organism’s own electromagnetic fields, promoting physiological coherence and supporting self-regulation processes — analogous in effect, though distinct in mechanism, to the biochemical action of the physical OMARIDIN™ powder.

Selected references:

  1. Popp F.-A., “About the Coherence of Biophotons,” Macroscopic Quantum Coherence, 1998.
  2. Blank M., Goodman R., “Electromagnetic Fields Stress Living Cells,” Pathophysiology, 2009.
  3. Ho M.-W., “The Rainbow and the Worm: The Physics of Organisms,” World Scientific, 2008.
  4. Albrecht-Buehler G., “Cellular Infrared Detection by Mitochondria,” Photochemistry and Photobiology, 1992

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Electromagnetic signals are produced by aqueous nanostructures derived from bacterial DNA sequences

https://pubmed.ncbi.nlm.nih.gov/20640822/ 

Transduction of DNA information through water and electromagnetic waves

https://pubmed.ncbi.nlm.nih.gov/26098521/ 

Pilot Aquaphotomic Study of the Effects of Audible Sound on Water Molecular Structure

https://pmc.ncbi.nlm.nih.gov/articles/PMC9573228/?utm_source=chatgpt.com 

Biological effects of low power nonionizing radiation: A Narrative Review

https://arxiv.org/abs/2010.15557?utm_source=chatgpt.com 

Molecular gyroscopes and biological effects of weak ELF magnetic fields

https://arxiv.org/abs/physics/0205008?utm_source=chatgpt.com 

Negative mood signals body's immune response

https://www.psu.edu/news/research/story/negative-mood-signals-bodys-immune-response?utm_source=chatgpt.com 






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