vam - 🔖 Release v0.2 — Core Refinement + Benchmark Framework

🔖 VAM Release v0.2 — Core Refinement & Benchmark Integration Major conceptual clarifications + head-to-head testing with General Relativity

✨ Highlights of This Release 📘 New Benchmark Paper “Benchmarking the Vortex Æther Model Against General Relativity”

• Provides direct side-by-side predictions for: • Time dilation • Orbital mechanics • Gravitational coupling
• Designed to address challenges from both conventional and skeptical reviewers
• Establishes testable regimes where VAM overlaps or diverges from GR

📎 Benchmark paper DOI: 10.5281/zenodo.15665433

🔁 Refinements to Core Papers (Part I & II): - Clear distinction between æther fluid density $\rho^{(\text{fluid})}\text{æ}$ and energy density $\rho^{(\text{energy})}\text{æ}$ - ​Streamlined time dilation and swirl potential formulas - Unified assumptions across papers and consistent parameter usage - Enhanced numerical and symbolic transparency

⚠️ Note: Appendices on derivations, knot topologies, and field simulations will follow in v0.3.

📚 Documents Included:

• 0-Einsteinandthe_Æther.pdf — https://doi.org/10.5281/zenodo.15669902
• 1-TimeDilationin3DSuperfluidÆtherModel.pdf — https://doi.org/10.5281/zenodo.15669795
• 2-SwirlClocksandVorticity-InducedGravity.pdf — https://doi.org/10.5281/zenodo.15566336
• ✅3-BenchmarkingVortexÆtherModelvsGeneralRelativity.pdf — https://doi.org/10.5281/zenodo.15665433

🧭 For Reviewers and Critical Analysts This release enables rigorous, side-by-side comparison of VAM and GR predictions under equivalent physical conditions. All time dilation equations now incorporate:

• Vortex tangential velocity $v_\varphi(r)$
• Swirl clock phase accumulation $S(t)$
• Local vortex proper time $T_v$
• Effective gravitational coupling $G_\text{swirl}$

​The objective is to show that VAM reproduces GR limits at large scales, but deviates meaningfully in high-vorticity regimes—offering experimentally testable predictions in nuclear, quantum, and astrophysical contexts.

🔬 Next Steps and Invitation Feedback, formal critiques, and experimental proposals are welcome. Upcoming releases (v0.3+) will explore:

• LENR modeling through Swirl Clock synchronization
• VAM-based reformulation of the Standard Model Lagrangian
• Quantum electrodynamics as vortex knot dynamics

📎 Omar Iskandarani 🔗 GitHub Repository 📄 DOI: 10.5281/zenodo.15566336

- TeX
Published by bg-omar 10 months ago

vam - Vortex Æther Model — Initial Public Version

Description

This is the first official public release of the Vortex Æther Model (VAM) framework, developed since 2012 by O. Iskandarani. It includes:

• Core equations for vorticity-induced gravity
• Structured time dilation via vortex knot theory
• Hydrodynamic æther model
• Python simulation tools for trefoil knots and circulation fields

Included Documents

• 1-Tijdsdilatatie_in_3D_Superfluide_Æther_Model.pdf

• 1-Time_Dilation_in_3D_Superfluid_AEther_Model.pdf — General Relativity without the 4th Dimention

• 2-Wervelklokken_en_vorticiteit_geinduceerde_zwaartekracht-2.pdf

• 2-Swirl_Clocks_and_Vorticity-Induced_Gravity.pdf — Local time model based on vortex rotation

Citation

A corresponding publication is available via Zenodo:
📄 DOI: pending after Zenodo upload

Please cite this release as: Iskandarani, O. (2024). Vortex Æther Model — Initial release. GitHub. https://github.com/bg-omar/VAM/releases/tag/v0.1

- TeX
Published by bg-omar 11 months ago