Penrose tiling and what is their relationship with the universe?

How was quark-gluon plasma turned into the material? 

Penrose tiling is the geometrical structure where are no two similar images. Or otherwise saying,  Penrose tilings are the nonsequential way to cover the area by using nonsequential polygons. 

Penrose tiling is one way the mathematical or geometrical-mathematical introduction to the universe. The universe started to expand just after the Big Bang. The form of material and its relationship with wave motion changes all the time. 

The universe is cooling all the time. And that means the energy or energy level of wave motion that impacts the material is always different. So the material that formed at the beginning of the universe is not ever the same twice. 

Material can look the same if we are in the universe at a certain time. But if we could go back in time and we could remain at the same energy level as we are in the moment when we went on our time trip we might not see the universe at all. 

But to make sure that thing is real, we must make time travel. And then we must separate ourselves from the quantum system called the universe. When the universe expands the space grows according to the material. That thing means that the distance of particles is growing all the time. 

That thing makes the gravitational effect weaker. And that thing is one of the most fascinating things in cosmology. That expansion causes that material is turning to wave motion. That wave motion pushes particles away from each other. 

Maybe the source of the dark is the vaporization of gluons. Gluons are the particles that transport a strong nuclear interaction. Those particles are also turning wave motion when the universe expands. 

Image 2. The explosion of the hydrogen bomb. There is the possibility that the quark-gluon plasma traveled like the ring around the Big Bang. And there is the possibility that the visible material formed inside that ring. 

In that case, the quark-gluon plasma turned back to wave motion at the outer and inner edges of that plasma ring.  And then, the wave-particle duality turns that wave motion to the visible material. This thing explains why there is so little visible material in the universe. 

Could dark matter and dark energy be the reason that there are some yet unknown particles?

Could those dark particles be some kind of material that releases before and after the visible material? Or let's take small rewind. 

When Big Bang released wave motion that turned to particles the wave motion was extremely hot. The first material formed quark-gluon plasma. The energy levels in that plasma were not the same. At the edge of that plasma. The wave motion traveled outside that entirety. The quark-gluon plasma acted like the ring that formed around the cloud of the nuclear weapon. That ring is the forming when the heat wave travels away from the explosion point. 

When the Big Bang happened and the quark-gluon plasma started to form that plasma should form the ring-shaped structure like hydrogen bomb forms. 

And there was the energy that traveled in the middle of that intensively heated plasma ring. That means. Also, the inner edge of that plasma turned back to the wave motion. And that brings one idea to my mind. Is visible material the result of that radiation? 

So the wave motion that once turned particles turned back to wave motion at both edges of that extremely hot plasma. That wave motion traveled outside that plasma ring. And another wave motion front traveled inside that plasma ring. The temperature in the middle of that plasma was so hot that it turned quarks also back to wave motion. 

But energy traveled straight out from the middle of that super hot young universe. And the material must turn thinner. And the temperature must get lower so that the hadrons can form. There is the possibility that the energy reflected from the expanding disk of the quark-gluon plasma formed the visible material.

https://en.wikipedia.org/wiki/Penrose_tiling

What kind of things were the first moments of the universe?

The form of the Big Bang is interesting. Wave motion that formed material came from emptiness. There is suspicion that two crossing wave motion fields impact each other. And that thing made the wave-particle duality possible. The problem is that wave motion cannot come from emptiness. There must be some kind of source for that thing. 

In some other theories, the Big Bang formed the gravitational wave motion. Or actually, so tight gravitational shockwave that was so tight that it moved other gravitational fields away from it. So in that case, the gravitational wave motion formed the cavitational ball or WARP ball there were no quantum fields or no gravitational waves.

There introduced the idea that the Big Bang formed when two sources of gravitational waves reached the same frequency. That made it possible. The gravitational waves crossed and formed the first material. 

The major problem with all theories about the universe's begin is that they require two sources of wave motion. There is one version of the Big Bang theory. That could explain why material is formed. 

And the reason for that is the Big Bang released two fronts of superstrings or gravitational waves. Because those two gravitational wave fronts are pulling each other together that causes the internal wave motions can reach the outer wave motion front. 

Then there was another front of the wave motion that came behind that shockwave. Because nothing could limit the speed of gravitational waves or the speed of the gravitational superstrings. 

Those follow-up gravitational waves hit the gravitational front which moved slower than the follow-up front of gravitation. The reason for that is that the superstrings that followed the first front were slowing its speed. 

When those strings of gravitational waves hit together started to turn into yarn balls that turned into quarks and other elementary particles. Then we can start thinking about the very first universe where only extremely high-energy quarks, electrons, and gluons existed. The temperature was extremely high. 

And the energy level of those elementary particles must turn lower so that the wave motion is. That those particles sent didn't push them away from each other. 

When quark-gluon plasma sends radiation it acts like all other quantum systems. The energy level of the universe must decrease enough that energy can start traveling away from those quarks. In quantum mechanics, energy flows to the system that is a lower energy level. 

The difference between quarks-gluon plasma and modern material was that quark-gluon plasma was more homogeneous than modern material. So that thing can mean that there were small and short-term warp bubbles around the quarks-gluon plasma. 

That electromagnetic- or quantum vacuum around the quark-gluon plasma caused the vaporization of material was not stable. And there is a possibility that time ran differently than we expected. Time runs slower in the high-energy universe than it runs in the modern universe. But the vaporization of material was faster at the edge of the universe. 

Cosmic inflation existed. But it affected only the edge of the material that was released in the Big Bang. Cosmic inflation is the thing that destroys the universe. But the same cosmic inflation caused the universe's temperature to decrease to the level that the gluons and quarks combined and turned into protons and neutrons. 

https://en.wikipedia.org/wiki/Big_Bang

Image: https://en.wikipedia.org/wiki/Big_Bang