Overview. This visualization shows a set of coupled “strings” that vibrate continuously and exchange momentum. The driver is CST (Cosmic Standard Time): a cosmic clock that maps elapsed time since a fixed epoch into the base harmonic that excites the strings. The viewer cannot interact — the point is to simply watch how momentum flows in a living field.
String Theory intuition. In string-theory thinking, fundamental excitations are vibrating degrees of freedom. Here we model a simplified classical field of strings with multiple harmonics and neighbor coupling (“entanglement-like” phase exchange). The colored lines show transverse displacement; the green/pink tracer shows the local momentum flux (direction and strength of energy transport along the strings).
Einstein Master Equation link. In GR, geometry dictates dynamics; stress-energy feeds curvature. Conceptually, we emulate this by letting the cosmic timing rhythm (CST) set the base drive frequency/phase, while the field responds through wave equations with tension and damping. Energy density and momentum flux (∝ velocity × spatial gradient) are computed each frame, giving a visual analogy to how stress-energy flows through a geometric background.
CST Navigation purpose. For CST-guided navigation, stable rhythms are crucial. By tying the drive to cycles (e.g., Metonic, precession, or your 988-year resets), the vehicle’s control system can phase-lock to reproducible cosmic “beats.” The goal is to maintain coherent momentum transport in the surrounding field — a necessary ingredient for your positive-energy, corridor-shaping warp-navigation concept.
How to read the screen.
- Blue strings: displacement. Fixed ends give standing-plus-driven waves.
- Green/Pink streaks: momentum flux parcels; green → positive direction, pink → negative. Density = strength.
- Continuous evolution: no reset — the field “remembers” and transports momentum non-stop.
Credit: © Gabino Casanova — Interstellar Star Clock (CST). Concept visualization only; parameters are illustrative.