TITLE:
Electromagnetic Field Released in Collision-Impact Events Generate in the Matrix Interface Fractal Scalable Invariant Geometric Triangular Chiral Hexagonal Structures
AUTHORS:
Jairo A. Diaz
KEYWORDS:
Electromagnetic Fields; Geomorphic Patterns; Irreducible Geometric Matrix
JOURNAL NAME:
Open Journal of Geology,
Vol.3 No.3,
July
4,
2013
ABSTRACT:
In biology, cancer is the most beautiful
natural model of a chaotic system, which under uncontrolled proliferations, generates
extreme disorder that finally causes intercellular collisions. The authors have
described and documented fractal self-assembly of geometric triangular chiral
hexagonal crystal-like complex organizations (GTCHC) and interface comet tail
effect patterns in cancer processes. According to this novel observation cancer
incorporates a real visualization world with a great surprising finding in biology,
physics, and geology. This visualization platform literally allows us to see
what would otherwise remain completely invisible. From theory to practice this
irreducible geometric matrix allowed us to identify in geology, real measurable
green infrared-electromagnetic stripe line in interface with hexagonal
geomorphic pattern, triangular chiral pyramidal rock structures, geology well
defined mirror images, template platform to bio signature characterization of ancestral
primitive polar head-tail organization, embryoid and human-like shape pattern
embedded as giant fossils in rocks that have never been seen before. Electromagnetic
field released in collision-impact events generate in the matrix interphase
fractal scalable invariant order of geometric triangular chiral hexagonal structures.
The laws of biology and geology can finally be redirected to the laws of
physics; specifically magnetic fields create a new kind of classification based
on these fractal structural similarities of the relationship. Further
interdisciplinary collaboration must be carried out to study these geometric
self-assembly geological structures, ancient sediments and rocks that could
provide insights into antecedents of life.