A Speculative Journey from Preceding Universes to CMB Anomalies
"What if our universe remembers the shape of the one that came before it?"
Open the Explorer | View on GitHub
Topological Memory Explorer is an interactive scientific thought experiment that explores one of the deepest mysteries in modern cosmology:
Why does the Cosmic Microwave Background (CMB) show a mysterious power deficit at large angular scales (low-ℓ)?
This tool bridges established science (finite topology cosmology) with a speculative origin story:
Could the geometry of our universe be an inherited "mold" from a preceding universe?
| Feature | Description |
|---|---|
| Interactive CMB Power Spectrum | Toggle between ΛCDM prediction and Planck observations with real acoustic peak at ℓ ≈ 220 |
| Topology Size Slider | Adjust the "inherited" cosmic size and see how it suppresses low-ℓ modes |
| Visual Mechanism Flow | Step-by-step concept map from pre-universe collapse to CMB imprint |
| Falsifiability Table | Clear predictions testable by CMB-S4, LiteBIRD, and Euclid |
| Scientific Integrity Badges | Distinguishes established science from speculative hypothesis |
- Low-ℓ power deficit confirmed by Planck 2018
- Finite topology cosmology (Torus, Dodecahedral, Lens spaces) predicts low-ℓ cutoff
- Circles in the Sky search method widely used
- "Topological Memory": Pre-universe topology frozen into inflationary vacuum, inherited by our universe
- No known physical mechanism — this is philosophy of initial conditions
This is not a scientific theory. It is a question.
Try it now:
https://snowbellsan.github.io/Topological-Memory-Explorer
- Section I: See the real CMB anomaly (ℓ=2,3 power ~20% of prediction)
- Section III: Drag the Topology Size slider
- Smaller size → stronger low-ℓ suppression
- Observe ℓ_cutoff = π / (size × 0.01)
- Section IV: Learn how CMB-S4 (2030s) can falsify this idea
| Prediction | Test | Falsification Condition |
|---|---|---|
| Repeating patterns in CMB | Circles in the Sky | No matched circles |
| Sharp cutoff at specific ℓ | High-precision Cℓ | Smooth power spectrum |
| Symmetry axes | Anisotropy analysis | Isotropic distribution |
If CMB-S4 finds no topological signatures, this hypothesis dies. That is the point.
Jack ( https://x.com/Jackpot_jack )
Simulator Archaeologist | AI Conductor | One-sentence Philosopher
git clone https://github.com/your-username/topological-memory.git
cd topological-memory
# Just open index.html in any browser
open index.html