Properties of bitons

A biton is the most stable and self-stabilizing 3D matter-particle. Bitons may approach each other under gravitational attractions, whenever disc-planes of constituent photons in one biton coincide with disc-planes of constituent photons in another biton. Depending on the polarities of their primary electric fields, two bitons within range and in a plane may apparently attract or apparently repel each other. Combinations of primary electric fields of bitons in superior 3D matter-particles/bodies produce resultant electric fields about them. A cloudy set of half-rings may be assumed as visual image of a biton. Gaps between the half-rings indicate the place where disc-planes of photons’ coincide with the plane of biton. A biton is a ring-shaped 3D matter-particle with primary electric field in the ring’s plane. At high linear speed, a biton tends to place its plane perpendicular to direction of its linear motion. This phenomenon produces halo around a stable galaxy, by arranging (re-arranging) bitons moving along the periphery of its spinning body and helps to keep distance towards neighboring galaxies steady and prevent their translations in space (thus maintains steady state of universe). A biton is the most stable and self-stabilizing 3D matter-particle. Free-floating bitons are plentiful in space. Under suitable conditions, they may from various fundamental particles and superior 3D matter-bodies. Two bitons in mutually perpendicular planes about a common centre form an elementary 3D matter-particle, a tetron. A single layered shell formed by numerous tetrons is a neutron. Three bitons in mutually perpendicular planes, about a common centre form a fundamental 3D matter-particle, a hexton. Hextons are of two kinds – positron and electron. A positron, being part of a neutron-like shell, forms a proton. A positron, linking two neutron-like shells, forms a deuteron. Deuterons are major components of atoms. Each deuteron is presently counted as one proton + one neutron.