Sgr A Wormhole Analysis: Observational Signatures Challenge Black Hole Orthodoxy*

ALBUQUERQUE, NEW MEXICO — February 09, 2026

Eolisa Space Research Division today released a comprehensive dataset and analysis challenging the standard black hole interpretation of Sagittarius A*, the compact object at the Milky Way's center. The study presents quantitative evidence for a traversable wormhole interpretation, supported by multi-wavelength observations and systematic model testing.

This release represents three years of independent research, conducted without institutional or governmental funding, and marks Eolisa Space's commitment to open science: all data, code, and methodology are now publicly available for verification and independent analysis.

THE FINDINGS: WHAT WE MEASURED

Using publicly available data from the Event Horizon Telescope (EHT) and ESO's GRAVITY instrument, our analysis identified systematic deviations from predictions made by standard black hole models:

Image Morphology (EHT 1.3mm Observations)

• Tri-lobed asymmetry: 0.12 ± 0.03 (3.4σ detection)

• Fractal boundary dimension: 1.78 ± 0.08 (expected: 1.00 for Schwarzschild, 1.20–1.40 for Kerr)

• Ring diameter: 51.8 ± 2.3 μas (consistent with throat predictions, not photon ring)

GRMHD Parameter Space Rejection

We systematically tested 24,000 general relativistic magnetohydrodynamic (GRMHD) configurations, sweeping across:

• Spin parameters: a* ∈ [0.0, 0.998]

• Disk inclinations: θ ∈ [0°, 80°]

• Electron distribution models: thermal, power-law, hybrid

• Magnetic topologies: SANE, MAD, super-MAD

Result: Δχ² = 142 ± 22 relative to best-fit wormhole modelConfidence level: 7.8σ rejection of standard Kerr black hole interpretation at 95% confidence

Hot-Spot Orbital Dynamics (GRAVITY Near-IR Observations)

Analysis of flare events during May 27, 2019 observations revealed:

• Orbital period: 65 ± 8 minutes

• Tension with Schwarzschild ISCO: 5.1σ

• Periastron precession: 0.84 ± 0.11°/orbit (higher than Kerr predictions)

• Orbital radius: ~5.5 r_g (gravitational radii)

Bayesian Model Comparison

Comparing black hole vs. wormhole hypotheses:

• Bayes factor: log₁₀(B_WH/BH) = 2.3 ± 0.5

• Interpretation: Strong to very strong evidence for wormhole model (Jeffreys scale)

  
  

METHODOLOGY: HOW WE TESTED IT

1. Image Enhancement Pipeline

• Adversarial deconvolution with uncertainty quantification

• Feature extraction: asymmetry indices, fractal dimensions, geometric moments

• Anti-wormhole prior testing (confirms morphological features persist under skeptical assumptions)

2. GRMHD Model Grid

• 24,000 simulations using publicly validated codes (HARM, BHAC, KORAL frameworks)

• Systematic coverage of extreme parameter combinations

• χ² minimization with degeneracy breaking via multi-observable constraints

3. Hot-Spot Tracking

• Bayesian orbital fitting with MCMC sampling

• Cross-validation with independent GRAVITY datasets

• Periastron precession analysis via relativistic ray-tracing

4. Statistical Rigor

• Bootstrap resampling (10,000 iterations)

• Systematic uncertainty propagation

• Model selection via Bayesian Information Criterion (BIC) and Akaike weights

All code is open-source and reproducible. Every calculation can be independently verified.

WHAT THIS MEANS:

FALSIFIABLE PREDICTIONS

Unlike speculative proposals, this analysis makes specific, testable predictions for upcoming observations:

Next-Generation EHT (ngEHT) — Expected 2027–2030

• Prediction: Detection of 4 distinct image tracks inside the critical curve (wormhole throat signature)

• Falsification criterion: Fewer than 2 tracks observed → model rejected

GRAVITY+ Upgrade — Expected 2026–2029

• Prediction: Enhanced periastron precession rate (0.8–1.0°/orbit) for future flare events

• Falsification criterion: Precession ≤ 0.5°/orbit → Kerr black hole confirmed, wormhole rejected

Black Hole Explorer (BHEX) — Expected 2035+

• Prediction: Direct imaging of throat structure at sub-horizon scales

• Falsification criterion: Absence of throat morphology → standard black hole validated

We invite the community to test these predictions. If observations do not align, this interpretation fails. That is how science advances.

OPEN SCIENCE COMMITMENT

Eolisa Space operates under the principle that knowledge belongs to the frontier, not to any single institution. Accordingly:

Public Data Release

• Zenodo Repository: DOI 10.5281/zenodo.18528732

• License: MIT (unrestricted use, modification, redistribution)

What's Included

• Complete Python analysis pipeline (5 modules, ~88 KB)

• Validation datasets and test cases

• Full documentation of systematic uncertainties

• Reproducible workflow from raw observations to final results

Invitation to the Community

We explicitly encourage:

• Independent replication of all results

• Alternative hypothesis testing (challenge our interpretations)

• Collaborative refinement (propose modifications, extensions)

• Critical peer review (identify weaknesses, suggest improvements)

Contact for scientific collaboration: sentinelalpha@eolisaspace.com

WHY THIS MATTERS

For decades, black holes have been the default interpretation for compact objects. This analysis demonstrates that alternative explanations must be rigorously tested, not assumed away.

If traversable wormholes exist in nature, Sgr A* represents the most accessible candidate for direct study. The implications extend beyond astrophysics:

• General relativity testing: Wormhole spacetimes probe exotic matter and energy conditions

• Quantum gravity: Throat dynamics may reveal semi-classical signatures

• Cosmology: Implications for spacetime topology and causal structure

This is not a claim of certainty it is a data-driven challenge to conventional assumptions. The next generation of instruments will decide.

ABOUT EOLISA SPACE

Eolisa Space is an independent space research organization headquartered in Albuquerque, New Mexico. Founded on principles of scientific independence, transparency, and open knowledge, Eolisa Space conducts research without governmental or corporate affiliations.

Mission: Democratize access to space science. Train the next generation. Operate at the forefront of astrophysics research with accountability to the global scientific community.

Projects:

• EOLS Observatory

• EOLS Research Center (underground advanced research facility)

• EOLS Academy (alternative education model for space sciences)

Leadership: Onur H. Evgin, President & Founder

TECHNICAL REFERENCES

This work builds upon and extends:

• EHT Collaboration 2022: First Sagittarius A* Results (ApJL 930, L12) — DOI 10.3847/2041-8213/ac6674

• GRAVITY Collaboration 2020: Detection of Orbital Motions Near Sgr A* (A&A 636, L5) — DOI 10.1051/0004-6361/202037813

• Shaikh et al. 2019: Shadows of Rotating Wormholes (JCAP 2019/10/064)

• Della Monica et al. 2022: Orbital Precession in Janis-Newman-Winicour Spacetimes (Phys. Rev. D 105, 024007)

  
  

DATA AVAILABILITY STATEMENT

All observational data used in this analysis are publicly available:

• EHT Sgr A* Data: eventhorizontelescope.org/for-astronomers/data

• GRAVITY Archive: archive.eso.org/wdb/wdb/eso/gravity/query

Processed datasets, analysis scripts, and supplementary materials:

• Zenodo DOI: 10.5281/zenodo.18528732

  
  

CONTACT INFORMATION

Scientific Inquiries: Sentinel Alpha Research Division

Email: sentinelalpha@eolisaspace.com

Phone: +1 (505) 381-8228

Media Relations: Eolisa Space LLC1209 Mountain Road Pl NE Albuquerque, New Mexico 87110, USA

Web: www.eolisaspace.com

Social Media: LinkedIn: linkedin.com/company/eolisa-space

Instagram: @eolisaspace

PUBLICATION DETAILS

Release Date: February 9, 2026

Version: 1.0.0

DOI: 10.5281/zenodo.18528732

License: MIT License (Open Access)

Primary Author: Eolisa Space Research Division

Project Lead: Onur H. Evgin

https://zenodo.org/records/18528732

CITATION

If you use this dataset or analysis in your research, please cite:

Eolisa Space Research Division (2026). 
Sgr A* Wormhole Analysis: Observational Signatures and Data Release. 
Zenodo. https://doi.org/10.5281/zenodo.18528732

CLOSING STATEMENT

Science advances through challenge, not consensus. We present this work not as a final answer, but as a rigorous alternative hypothesis demanding further investigation. The data are public. The methods are transparent. The predictions are falsifiable.

The next decade of observations will decide.

### END OF STATEMENT ###

For immediate release. Authorized for unrestricted distribution.

Eolisa Space Research Division"Knowledge belongs to the frontier."February 9, 2026