C++ and JavaScript N-body dark matter simulations testing the dark matter hypothesis through NFW halo concentration analysis and Baryons-only comparative modelling
Visualizing the rotation curves of galaxies to understand the evidence for Dark Matter.
The ACM Trunk: a rigid holographic framework for galactic dynamics. This repository provides the core analytical engine for predicting galaxy rotation behavior from baryonic distributions via linear holographic screening. Tagline No galaxy-by-galaxy fits. No hidden knobs. Just the physics of the background floor.
Universal Critical Density: Unifying atomic, galactic, and compact object scales via gravitational solitons. Derives ρ_c ≈ 20 g/cm³ from GNSS clocks, validates across SPARC galaxies, magnetars, and Milky Way. TEP Paper 7.
Multi-Scale Scalar Field Approach to Galactic Dynamics Without Dark Matter
Open Evidence Pack for QUMOND-based emergent gravity — auditable engine, reproducible artifacts, reviewer-ready checks.
Lightweight C/Python toolkit for astronomical N-body simulations. Reconciles SPARC rotation curves and JWST morphology via a 1.21e-10 m/s^2 threshold patch. 解決星系旋轉殘差、JWST 數據偏差及數值不穩定問題。
the event density ontology
🌌 Explore dark matter dynamics with TEP-UCD, unifying atomic, galactic, and compact object scales through observed critical density patterns.
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