Supporting Research

NOTE: This section is incomplete and ongoing.

• What is this research exploring?
• Why does this matter?
• What are fractal EM fields?

What is this research exploring?

This research is exploring how uniquely patterned electric and magnetic fields—specifically those with fractal or scale-based frequency characteristics—can affect biological systems. These are not your typical EM fields like those from Wi-Fi or power lines. Instead, these fields contain a complex mixture of frequencies arranged in a special way, often following mathematical ratios or patterns found in nature.

When these fractal fields are applied to the body, people have reported noticeable effects: reduced pain, enhanced focus and mental clarity, better digestion, and even faster healing. This raises a key question: could the structure of these fields be the reason they produce such wide-ranging biological effects?

The goal of this research is to understand how these fields interact with our cells, nervous systems, and tissues—and whether their structure helps the body function better, heal faster, and stay balanced.

Why does this matter?

Modern science has long studied how electric and magnetic fields affect biology—think MRIs, TENS units, or pulsed electromagnetic field therapy (PEMF). But most of these use simple, repeating signals.

This research suggests that the structure of a signal—specifically one with fractal characteristics—might make a big difference in how the body responds.

Fractal EM fields are rich in variability, yet still organized. That makes them potentially more compatible with the body’s own natural rhythms, which are also variable and complex. Unlike random noise or repetitive pulses, fractal fields may gently stimulate biological processes across multiple levels—from molecular pathways to brain activity.

Understanding how and why these effects happen could open doors to new therapies that use extremely low-energy, non-invasive methods to:

• Reduce pain and inflammation
• Support mental clarity and focus
• Improve digestion and metabolism
• Encourage healing and cellular repair

This matters not only for clinical applications, but also for optimizing wellness and human performance.

What are fractal EM fields?

Fractal electromagnetic (EM) fields are electric and magnetic signals made up of many different frequencies that follow a repeating pattern or ratio—often modeled after natural fractals like the golden ratio. Unlike single-frequency signals (like a steady tone), these fields are rich in variation but still structured. They might look chaotic at first, but their frequencies are mathematically organized across multiple scales.

These fields are often created using special coils or plasma devices that emit both electric and magnetic components. For example, a plasma field might produce an electric field strength of 5,000 V/m and a magnetic field of about 500 microtesla. The key difference is the way the signal is shaped: it isn’t just pulsing up and down in a simple rhythm—it’s unfolding in a complex, fractal-like pattern.

Why does that matter? Because living systems also operate with fractal-like rhythms—like the variability in your heartbeat, your brainwaves, or even how your cells signal each other. A signal with a fractal structure might “speak the same language” as the body.

• Fractal EM fields contain multiple frequencies arranged in mathematical patterns
• They are structured but not repetitive—more like natural rhythms than artificial ones
• These fields are produced by plasma devices or coils that emit wide-area electric and magnetic fields
• The signal structure might help it interact more naturally with biological systems

(Citation: [3], [6], [14], [16])