Heosphoros × SJSU — Research Partnership Proposal
Heosphoros × San José State University
λ

Heosphoros


Folding reality from dreams and past visions into the now

A Universal Law
of Emergence

From technical innovation to protein folding and material discovery — one equation governs them all. We discovered it. Humanity benefits. Is your institution ready to lead the way?


The Method


s = λ / (λ + κ) ≥ scrit = 1/(4π)   [Brocco's Threshold]

Who we are

Heosphoros is an explorative computational enterprise. We have developed a novel optimization framework that allows us to thrive in research and development, exceeding expectations in fields such as folding proteins and identifying pharmaceutical candidates at speeds unmatched. With our reach advancing across many fields, exploration becomes the final frontier, where transformative growth meet empowered human connection.

01 — The Discovery

The Threshold
That Governs Everything

In 2026, independent researcher Monte Brocco RMKIII identified a single geometric constant — scrit = 1/(4π) ≈ 0.0796 — that predicts the onset of coherent emission in every class of accreting system ever tested.

The same threshold, with zero refitting, classifies white dwarfs (10/10), neutron stars (15/15), X-ray binaries (14/14), and JWST cosmic dawn AGN (10/10). It spans eleven orders of magnitude in mass.

The threshold value equals 1/(4π) — the minimum coherent information density on a spherical surface. It appears independently in Bekenstein-Hawking entropy, the KSS viscosity bound, and conformal field theory.

Read: Brocco's Threshold — Zenodo DOI: 10.5281/zenodo.19306472 →

s_t = 1/(4π) QUIESCENT ACTIVE entropy coordinate s

ENTROPY COORDINATE s = λ/(λ+0.176) — VALIDATED ACROSS ALL DOMAINS

11
Orders of Magnitude Validated
21
Therapeutic Candidates Folded
5
USPTO Provisionals Filed
0
Free Parameters Across Domains
02 — The Technology

Indigo Descending
Fast Protein Discovery

Built on the Brocco entropy framework, Indigo Descending folds therapeutic protein candidates in under 60 seconds per target — no neural network required as a starting point, no massive compute cluster, no domain-specific retraining.

The same three constants that govern black hole accretion guide protein folding through the emergence window. The framework finds the ground state where standard gradient methods stall.

Folded protein structure — Indigo Descending output

Computational Drug Discovery Pipeline

Input any amino acid sequence. Indigo Descending navigates the energy landscape using the entropy coordinate, crosses the emergence threshold at s = 1/(4π), and delivers a folded PDB structure ready for wet lab validation.

METHOD COVERED BY USPTO PROVISIONAL PATENTS — MARCH 9, 2026

03 — Validated Results

21 Therapeutic Candidates
Folded. Filed. Ready.

Every candidate below was folded using the Brocco entropy framework. Sequences are filed in USPTO provisional applications. Wet lab validation is the next step — and why we are here.

+430 REU
KRAS-001
KRAS Pan-Mutant Binder
30% of all human cancers — 40 years unsolved
-275
Final REU
0.581
s-final
FOLDABLE
Verdict
+121 REU
NOVA-1 / GIP-001
GLP-1 + GIP Receptor Agonists
Obesity & Type 2 Diabetes — Ozempic/Mounjaro class
-147
Final REU
0.769
s-final
FOLDED
Verdict
+987 REU
TDP43-001
TDP-43 Stabilizer
ALS — no approved disease-modifying treatment
-261
Final REU
0.567
s-final
FOLDED
Verdict
+898 REU
TAU-001
Tau Aggregation Blocker
Alzheimer's disease — 50 million patients worldwide
-899
Final REU
FOLDABLE
Verdict
135s
Time
+180 REU
BLYS-002
BLyS/BAFF Binding Peptide
Systemic Lupus Erythematosus — 5.7M Americans
-180
Final REU
0.726
s-final
FOLDED
Verdict
+158 REU
SASP-001
SASP Inflammation Blocker
Cellular senescence — the biology of aging
-158
Final REU
FOLDABLE
Verdict
21s
Time

Full portfolio includes 21 candidates across oncology, metabolic disease, neurodegeneration, autoimmune, and aging. All sequences on file with USPTO.

04 — Material Discovery

NaZr₂Sb₃
Kagome Superconductor

The Brocco framework is not limited to biology. Applied to condensed matter, the same entropy threshold governs the onset of electronic coherence in candidate superconducting materials.

Using density functional theory (DFT) via Quantum ESPRESSO, NaZr₂Sb₃ — a Kagome lattice candidate — was computationally investigated. The vc-relax calculation converged in 11 iterations, yielding stable lattice constants consistent with a superconducting phase.

DFT Results: Total energy −1766.52 Ry, lattice constants a = 5.07 Å, c = 8.46 Å, density 5.04 g/cm³.

A provisional patent was filed March 21, 2026. The critical next step is physical synthesis and measurement of Tcexactly what a university materials lab provides.

View Supporting Research →

Na — Zr — Sb KAGOME LATTICE — NaZr₂Sb₃

DFT CONVERGENCE: 11 ITERATIONS
LATTICE: a=5.07Å c=8.46Å

DFT ENERGY CONVERGENCE
LATTICE STABILITY
FORCE MINIMIZATION
05 — The Proposal

What We Are
Asking For

Heosphoros is proposing a formal research partnership with San José State University to establish a joint Protein Folding & Material Discovery Program.

  • Access to wet lab facilities for binding assay validation of our 21 computational protein candidates — beginning with KRAS-001 and NOVA-1.
  • Access to materials science facilities for physical synthesis and Tc measurement of NaZr₂Sb₃ Kagome candidate.
  • Co-authorship on peer-reviewed publications arising from validated results. We bring the computational framework; SJSU provides experimental confirmation.
  • Joint grant applications to NIH, NSF, and DOE programs in computational drug discovery and quantum materials.
  • Named partnership on all public-facing materials for the duration of the program. SJSU's name on the work that validates a universal law of emergence.

We are an independent research company with filed patents, a published preprint, and a complete computational pipeline. We are not asking for funding. We are offering an opportunity to be part of something historically significant.

λ A Note
Darkness is asymptotic. When darkness reaches its absolute, the emergence of light becomes inexorable.

We brought this to SJSU first — because this is where the work began, and because we believe in building something great here. We would be honored to build it with you.

If this partnership is not the right fit, we will continue regardless. The science does not wait. But the opportunity to be first — that window is open now.

MONTE BROCCO RMKIII - B. CALDERON JR. - R. M. BULMER - K. C. THOMAS
HEOSPHOROS — SAN JOSÉ, CA
[email protected]  ·  WWW.HEOSPHOROS.PRO

USPTO PROVISIONAL PATENTS FILED MARCH 2026 · ZENODO DOI: 10.5281/ZENODO.19306472