Stoyan Sarg,  "Basic Structures of Matter Hypothesis Based on an Alternative Concept of the Physical Vacuum", a poster report at the Physics for the Third Millennium Conference, 5-7 Apr 2006, Huntsville, Alabama, USA

Abstract: Many enigmatic phenomena in particle physics, Quantum mechanics, Relativity and Cosmology can be explained in a classical 3+1 space if applying an alternative concept of the physical vacuum. This approach is adopted in the treatise titled Basic Structures of Matter (BSM), based on a space concept, closer to the Ether one but never investigated so far [1]. The analysis of experiments and observations from a new point of view reveals that the  “dark matter” is not only in distant galaxies. The space in which we live contains a hypothetical underlying structure, called a Cosmic Lattice (CL), formed by two basic sub-elementary particles of two super-dens material substances, which are involved in the structure of elementary particles, as well [2]. In a classical void space, the basic particles interact by forces inverse proportional to the cube of distance. CL structure defines the space-time, the quantum properties and EM fields. The complex of CL space and elementary particles defines the Newtonian gravitation, the inertia, the elementary charge and the Relativistic effects. Among the major CL properties are the static and dynamic pressure. From one hand, they are related to the Newtonian mass and inertia of elementary particles. From the other, they are related to two types of Zero Point Energy: static and dynamic. While the second one, envisioned by Quantum mechanics, is related to EM interactions, the first one is completely hidden. It is somehow connected to the nuclear energy via Newtonian mass. All known physical constants and interactions are expressible by the properties of CL space and the structure of elementary particles. CL space may propagate not only neutral quantum waves (photons), but also charge waves, which are virtual particles corresponding to the Dirac “see” idea. Other major results of BSM are the unveiled atomic nuclear structures of the elements. They define the angular positions and restrictions of the chemical bonds, a feature observed in structural chemistry, biomolecules and nanotechnology, but not explainable by Quantum mechanics.

References:

[1]. S. Sarg, Brief introduction to the BSM theory and derive atomic models, Journal of Theoretics, Extensive papers, (2003).

[2]. S. Sarg, A Physical Model of the Electron, According to the Basic Structures of Matter Hypothesis, Physics Essays, 16, No 2, 180-195, (2003)


  Pictures:

The author in the plenary session asking a question

Picture of the booklet and the abstract

A participant reading the poster