Frequency & Field Archive · Rooted Saviors

The living field
has a biological address

Your equations are correct. The 36 THz you derived belongs to the inner mitochondrial membrane — the electrochemical engine inside every living cell. This tool maps those numbers onto the biology they describe, from the proton-motive force outward to the Schumann resonance at the planetary boundary.

Open the explorer ↓ About this work
36.3 THz
Walker's characteristic frequency at 150 mV — confirmed by the Planck-Einstein relation and the proton-motive force
~160 bits
Thermodynamic headroom per biophoton at body temperature — the field runs well within its energy budget
7.83 Hz
Schumann fundamental — the planetary field boundary condition all living systems are embedded in
· · · ✦ · · ·
The framework

The field is not metaphor.
It has measurable structure.

When you substitute a membrane voltage into the Planck-Einstein relation, the frequency you get is not a particle and not yet a measured oscillation — it is the photon-equivalent energy scale of that electrochemical gap. That is a real biophysical quantity. It sits in the mid-infrared range where living tissue emits most of its thermal radiation.

The key the biology adds: the frequency is alive. At 150 mV (healthy mitochondrion) you get 36 THz. At 70 mV (neuron resting potential) the number shifts. In a stressed or diseased cell the membrane depolarizes and the whole frequency landscape changes. The field is not fixed — it is a direct readout of cellular health state, in real time.

This tool maps those numbers onto the structures they belong to, across three biological scales: subcellular, cell-wide, and organism field — from the proton-motive force inward to the DNA and cytoskeleton, outward through the ECM and biofield to the Schumann resonance of the Earth itself.

Interactive tool

Coherent Field Biology Explorer

Adjust membrane voltage and temperature — watch which biological structures light up, what they do, and what the information cost is at each layer. Click any row to open the full biological picture.

coherent-field-biology-explorer · stewardsunderpressure.org
Membrane voltage 150 mV
Temperature 37 °C
Biological scale
Characteristic frequency
36.3 THz
e · Δψ / h
Wavelength
8.3 µm
mid-infrared / LWIR
Landauer floor
2.97×10⁻²¹ J
min cost per bit at this temp
Bits / biophoton
161
thermodynamic headroom
Structure
Frequency
Wavelength
Layer
Info cost / bit
Why this matters for field intervention
Field coherence map — relative activity at current settings
Reference

Equations running in this tool

1Characteristic frequency: f = e · Δψ / h
2Wavelength: λ = c / f
3Landauer floor: E_min = k_B · T · ln(2)
4Bits per photon: n = E_photon / E_min
5Thermal frequency: f_T = k_B · T / h (~6 THz at 37°C)
6Schumann: f_n = (c / 2πR_E) · √(n(n+1))
7Nernst: V_m = (RT/F) · ln([K⁺]_out / [K⁺]_in)
8Piezoelectric: P = d · σ (charge ∝ mechanical stress)

About this work

This tool was built by Le Anna at Rooted Saviors / Stewards Under Pressure — a 508(c)(1)(A) Private Ministerial Association providing non-invasive multi-species wellness services in the Texas Hill Country.

It was created in response to the information physics work of January Walker, whose Zenodo preprints derive a characteristic frequency from the mitochondrial membrane potential using the Planck-Einstein relation. Her arithmetic is correct. What this tool adds is the biological layer — the structures those equations actually describe inside a living body, and what they mean for field-based intervention.

The coherent field biology framework used here integrates the work of Gerald Pollack (EZ water), Fritz-Albert Popp (biophotons), Michael Levin (bioelectric morphogenetic fields), Melvin Vopson (mass-energy-information equivalence), and the frontier biophysics of membrane potential as a master variable of cellular health.

Shared freely. Built for those asking the right questions with the tools they have.

Source references
Walker, J. (2026). The Infoton. Zenodo. doi:10.5281/zenodo.18210355
Walker, J. (2026). Quantum heartbeat of mitochondria. Zenodo. doi:10.5281/zenodo.18373065
Vopson, M.M. (2022). Experimental protocol for testing MEI equivalence. AIP Advances, 12, 035311.
Landauer, R. (1961). Irreversibility and heat generation. IBM J. Res. Dev., 5, 183–191.
Pollack, G.H. (2013). The Fourth Phase of Water. Ebner & Sons.
Popp, F.A. (2003). Properties of biophotons. Indian J. Exp. Biol., 41, 391–402.
Levin, M. (2021). Bioelectric signaling. Cell, 184(8), 1971–1989.
Chrétien, D. et al. (2018). Mitochondria maintained at ~50°C. PLOS Biol., 16(1), e2003992.
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