Fluons Theory (FLT)
Copyright by Gabriel Paul.
You can use this theory for any purpose (including commercial), but only if you specify that the author (of the theory) is Gabriel Paul.
The space has density. In the undeformed space it is 1.
Two spaces (with the same dimension) put together create a new space with a density equal with the sum of the density of the components.
The length of the space changes according to its density.
Lets say that the domain MDN{D} and the codomain MDN{D} of a function (named fluonic function) are overlapped (value by value). The result of the overlap is manifesting as a single space, named fluon. The frontier (a MDN{D - 1} space) wraps around the fluon; the frontier is like a discontinuity.
In the domain, the distance between 2 points is named extrinsic distance. In a fluon, the distance between 2 points is named intrinsic distance: this is zero in a fluon, but if there is no fluon then it is equal with the extrinsic distance.
When the intrinsic distance is zero (and thus the overlapping domain and codomain form one zone), we can say that an object that is within the domain or codomain is actually is 2 places at the same time.
A fracture is a discontinuous (the applied fluonic function is non-continuous) zone in a MDN{D} space.
Because to each point of the domain corresponds one in the codomain, if the size and shape of the codomain are identical to those of the domain, then the frontier is ordered else is disordered (same for the fluonic function that has generated the frontier).
A frontier or fracture that does not contain another frontier / fracture is named coherent else incoherent.
When a fluonic function is applied to a space, its density changes.
The movement through a frontier or fracture is named displacement. This is like a jump in space: the distance between the source and destination is zero.
The direction of the displacement of an object through a frontier corresponds with the way the points of the domain and codomain correspond with each other.
The actual displacement occurs only at the frontier, not in all points where domain and codomain are overlapped.
In a MDN{D} space there can be any MDN{< D} space. Still its manifestation is almost nonexistent.
The matter from the overlapped domain and codomain overlaps also.
The probability of auto-deformation of a space is not zero. The fluonic functions can appear and disappear from "nothing".
A space with density different that the density of the space around it, may try to equilibrate its density, thus imploding or exploding. The margins of the space should move with finite speed (because the equilibration force is limited). Space may be elastic: so it would balance when it equilibrates.
It is possible that our Universe appeared because a (very small) subspace with a very high density has exploded. The highest probability of a space to create a universe is when it has 3 dimensions = the smallest number (the topology of a 2D space is too limited to create a complex universe).
Because the density of the original space was not homogeneous, the form of the (most) basic structure of matter is the string.
The size of a string is limited by the speed of its equilibration.
Strings can interact and thus form matter.
When an object passes through a disordered frontier it may regain its initial form because of the elastic forces within it.
A fluonic function can be created with a force field (electromagnetic or gravitational?). The origin of the space is also generated by the function.
It does not matter if an object is moving relatively to a frontier, or the frontier relatively to the object.
It is possible that large natural gravitational forces create frontiers, or influence existing ones and also the matter passing through the frontier, or even influence the creation of frontiers made by something else.
If an object passes through a frontier just when the frontier closes, it is possible that the frontier would not close because the object opposes a certain force.