Gravition, Mass and Energy
Space-time cells (elementars) are densely packed Lissajous waveicles (particles) that form the granular, quantized space-time. Like a spiral spring, the elementars have an elastic diameter. Neighbouring elementars cause their dilatation. This volume reduction causes the particles to move towards each other, attracting them. This explains the attractive effect of gravity. As a counterforce a tension builds up in the elementary elements, which acts as a restoring force to the original size. It prevents collapse.
Gravity is based on the Pauli Exclusion Principle, but by orders of magnitude smaller at elementary level. The elementary elements, the smallest building blocks of reality, have a variable volume. If they are pressured by neighboring elementary elements, they are squeezed together elastically. Their volume becomes smaller and thus also the space, it bends itself. The resetforce tries to recover the original volume of the elementary elements. The sum of the elementars, the elementary field becomes a gravitational field.
IX.2 Mass
Fermion Vektorboson Gluon / Photon
Mass is always equivalent to space displacement. Leptons, quarks and W/Z bosons can expand by their standing eltars and thus influence the space gravitatively. The gluons, on the other hand, are trapped in the horizontal ring structure on the smallest possible volume. Neither does the photon enclose a volume. These two types of etar particles therefore have no mass. The elementary space will be completely filled out by the elementas. Particles replace it and thus maintain their mass. The elementary space is therefore equated with the higgs field. According to the elementary model, the Higgs mass must be identical to the mass of the elementars.