Indeed. When the supercritical vapor condenses, it will create a new paths for energy spreading, i.e. the density gradients in it. Such density gradients are clearly observable as a voluminous streaks.
The energy spreading is attracted by the surface density gradients, so at the certain moment, most of energy waves will spread along surfaces of these density gradients like the waves at the water surface. We can say, the foamy system of density gradients will create less or more continuous space-time for the energy spreading. The space dimensions corresponds the directions, in which the energy can spread along the largest distance. They're simply directions, in which the newly created gradients are changing by the smallest speed.
While the time dimension is the direction perpendicular (normal) to the newly created surfaces. The time dimension is simply direction, in which the density of newly created gradients changes by most pronounced way. What will follow from such finding?
Well, a lotta things. We can see, the surfaces of every foam membrane are formed by the pair of closely packed surface gradients. Simply because every membrane in the foam has just a two sides. Compare this conclusion with the latest two time dimensions models (1
). The AWT
model of foam enables to understand easily, from which aspect of physical reality such model follows. But the two time dimensional model has even its own experimental consequences
Under normal situation, both the surface gradients of Aether foam are tightly connected together, because the foam membranes are very thin. But if you introduce some energy into such foam, the Aether foam becomes more dense, exactly like the soap foam shaken inside of closed vessel. The shape of bubbles inside such foam becomes more spherical and the difference between both time surface gradients will become more pronounced.
As the result, the vacuum will become birefringent: it will start to behave like part of "multiverse" ("biverse", being more specific). The information about each event inside of such vacuum will spread by light in two parallel ways (directions), thus causing a pair of mutually independent consequences. We can met with the practical realization of two time dimensions here. The vacuum birefringence can be observed near the stars with strong gravitational or electromagnetic field density around it. The double event horizon of rotating charged black holes is the most pronounced example of the multiple time dimensions concept inside of our Universe.
Of course, at the even higher energy density, the number of time arrows will increase even more, until it transform itself into quantum chaos, which we can observe, while living inside of such black hole. The Heisenberg's uncertainty principle is the residuum of the initial graviton multiverse with many time dimensions (directions). It corresponds the initial state of the above animation
, where the time dimensions are illustrated by number of tiny black dots. While the current state of Universe can be characterized by single time arrow and by infinite number of spatial directions, instead.