Author Wilfredo Santa Gómez, MD

Dark Matter in PEECTS:

“Early-Epoch Contractile Concentration”

  • During early, intense contraction phases of palindromic time strings (pre-expansion loops), tension builds up to maximum elastic compression.
  • At these nodes, massive but invisible tension-bound structures form — we observe them later as dark matter.
  • These are gravitational remnants of string intersections, compressed but non-radiative, hence invisible but massive.

🧠 PEECTS Interpretation:

Dark matter is compressed palindromic residue — created early during inward string tension maxima, locked into the lattice of time-space before light fully emerged.

🌌 Dark Energy in PEECTS:

“Edge-Distributed Elastic Rebound”

  • As time strings expand outwards, they lose central tension and snap outward, creating a tensile rebound field.
  • These rebounding elastic tensions form low-density, high-stretch fields — that’s dark energy.
  • It’s mostly found toward the outer edge of the expanding universe (geometrically, the outer zones of stretched entangled loops).

🧠 PEECTS Interpretation:

Dark energy is residual tension energy from expanding time strings — a field-wide elastic push that supports late-stage acceleration.


🔁 Unified Table: Dark Matter vs. Dark Energy in PEECTS

PropertyDark MatterDark Energy
Time String PhaseContraction (intensified, early epochs)Expansion (late-phase, outer zones)
LocationLocalized (halo structures, galaxy cores)Distributed at large scales (cosmic voids, expanding frontiers)
Physical NatureCompressed time string nodes (entangled mass wells)Stretched rebound fields (tension-relief zones)
Observable EffectGravitational pull (binding galaxies)Accelerating expansion (pushing spacetime outward)
Palindromic RoleResidue from loop compressionTension echo from loop reversal

🎓 PEECTS Summary Statement ,

“In the PEECTS framework, the universe is not destined to end in a Big Crunch, nor to expand infinitely. Instead, it unfolds through entangled palindromic elastic time strings, continuously reversing, folding, and re-expanding in multi-layered temporal geometries — mirroring local and global elastic tensions in the time fabric.”