Autor: Wilfredo Santa Gomez

Title: WSantaKronos Live Lab Log

Chronology of Discoveries and Events

This page serves as the official timestamped archive of observations, breakthroughs, validations, and Red Tag events documented throughout the development of the WSantaKronos Laboratory and the PEECTS Elastic Time framework.

Each entry is structured for clarity and traceability, reflecting how Elastic Time theory connects with scientific data, instrumentation, and real-world phenomena.

đŸ”č August 2025 — Mount Spurr Volcanic Risk Comparison using Elastic Time Metrics

Summary:
Mount Spurr, an active stratovolcano in Alaska, is being monitored for potential eruptive activity. WSantaKronos evaluates its unrest signature using PEECTS-based Red Tag pattern recognition and magma-conductivity Elastic Time displacement models.

Details:

  • 📘 Related Chapter: Volcanic Prediction and Time Field Compression
  • 🔁 PEECTS Feature: Volcanic core recoil detection and magma-driven ETSIG transitions
  • 🔬 Reference: Alaska Volcano Observatory, USGS real-time alerts

Math Insight:
Temporal magma displacement prediction: Where is pressurized deformation from the magma chamber under slow contraction lattice feedback.

Red Tag / ETSIG Note:
Multiple micro-quakes and harmonic tremors are mapped to early-stage Elastic Time fluctuations. Signature flagged as: ETSIG:SPURR-AUG-2025.

Impact:
WSantaKronos compares PEECTS simulation results to AVO alert levels to verify how Elastic Time corrections enhance early eruption forecasting and crustal rebound tension modeling.

đŸ”č August 2025 — Yellowstone Magma Cap and PEECTS-Based Pressure Containment Modeling

Summary:
Yellowstone’s volcanic system shows evidence of a dense magma cap 2.4 miles beneath the surface. WSantaKronos models the cap as a harmonic constraint layer preventing ETSIG release.

Details:

  • 📘 Related Chapter: Yellowstone Case Study in Time-Rebound Systems
  • 🔁 PEECTS Feature: Magma string looping and temporal cap containment under high Red Tag pressure
  • 🔬 Reference: USGS Yellowstone Monitoring Reports (2025)

Math Insight:
Cap resistance elasticity model: Where is resistance delay to magma uplift.

Red Tag / ETSIG Note:
Temporal quake displacements with stable inflation confirmed. Cap containment signature flagged: ETSIG:YELLOWSTONE-CAP-2025.

Impact:
This behavior confirms Elastic Time containment via magmatic rebound, validating that not all inflation leads to eruption when time lattice acts as a recoil dampener. Demonstrates suppression of eruption via temporal elasticity.