Einstein is invincible. (Einstein’s General Relativity holds firm)

"Einstein’s General Relativity holds firm as DESI data confirms its predictions on cosmic scales, while also revealing new insights into neutrino masses and galaxy clustering. Credit: SciTechDaily.com" (ScitechDaily, Einstein Vindicated: Stunning Cosmic Map Confirms Gravity Theory Across Billions of Years)

Einstein's greatest idea was that gravity is the attribute in the spacetime. That means the other three fundamental interactions are things that we can describe as the attributes in spacetime. Spacetime is the Higgs field that determines the base energy level in the Universe. 

We can say that Einstein keeps his place. The Theory of Relativity. The gravity models were tested on the Universe scale. And there are no mistakes. That means gravity was similar in the young universe as it is in the modern universe. The difference in energy levels and size of the young and modern universe can explain differences in the measurements. The young universe was denser and its energy level was higher. That means the energy pushed particles away from each other stronger than in the modern universe. 

The term "visible energy" means...

<>Four fundamental forces. 

-Strong nuclear force

-Weak nuclear force

-Electromagnetism

-Gravity (or gravitation) 

E = mc2—In SI units, the energy E is measured in Joules, the mass m is measured in kilograms, and the speed of light is measured in metres per second.

<>Electromagnetic spectrum. 

-Radiowaves

-Infrared radiation

-Visible light

-X-rays 

-Gamma rays

Dark energy is the mysterious wave movement whose origin is unknown.

Dark matter means mysterious gravitational fields or gravitational effects that the source is unknown. Sometimes people believe that the Maser effect in gravitational waves can explain dark matter. Or the dark matter is some kind of hole in Higgs field. The question is not what makes the mass or black holes. The question is what puts the Higgs field moving? The moving field is the thing that makes gravity waves. 

As we see from the diagram only 4,9% of the material is visible. As we see from the electromagnetic spectrum most "visible" radiation or energy requires special equipment. So that nobody can observe those wavelengths. 

The distance between objects was shorter. And that means the energy interaction was stronger. The question is did dark energy is released in the same event as visible energy is the big question. But in a dense and. young universe the visible energy had also stronger interactions than in the modern universe. 

And that energy also pushes objects away from each other. Even if we say that dark energy is the dominant effect in the modern universe, we must realize that in the young universe, the relations between visible and dark energy are different. 

When we think that dark energy is the same as dark matter we can imagine the wave-particle duality. The wave-particle duality is the thing. That makes material. That happens when wave fields cross each other. And the Schwinger effect forms the particles. It forms the particle-antiparticle pair. The idea is that the energy beam travels through across the other quantum field. 

That forms two whirls that turn into quark-antiquark pairs. So that means the particles are one packed form of energy. Dark energy should form particles as well as visible energy. But nobody is sure that theoretical material is dark or invisible to us. If that model is true, we can say that dark energy is behind weakly interacting massive particles, WIMPs. 

The thing is. Researchers believe that the so-called Higgs field makes the mass of all particles. The idea is in that model the Higgs Boson or something like that makes the Higgs field move into the objects. The question is where that Higgs field goes when it moves to the objects. That is an interesting question. The mass and gravity are things that make the Higgs field move. At that point everything is clear. But the direction. Where that field moves is the problem. What denies that we will not turn into black holes? 

In models, the Higgs boson is the thing that makes the mass. That mass forms when Higgs boson vaporizes. And then Higgs field tries to fill that space. The problem is that. Can there be material that has no Higgs boson? And can the photon be the particle that has no Higgs boson in it? 

If something causes too fast vaporization in the Higgs boson. That means the movement in the Higgs field will stop. That means the material would lose its mass. 

In that model, cosmic inflation means. That particles biding Higgs field into themselves. That means that the Higgs field turns thinner but also there are more denser points. So others say the Higgs field accumulates in other points and then turns thinner or lower energy between those points. 

But those things are still fully theoretical things. We know that a particle is one model of energy. Gravity is the attribute in the spacetime. That means the other three fundamental interactions are things that we can describe as the attributes in spacetime. As I wrote at the beginning of this text. 

https://bigthink.com/hard-science/youre-made-of-energy-the-strange-truth-about-where-mass-comes-from/

https://bigthink.com/starts-with-a-bang/dark-matter-same-dark-energy/

https://home.cern/science/physics/higgs-boson

https://scitechdaily.com/einstein-vindicated-stunning-cosmic-map-confirms-gravity-theory-across-billions-of-years/

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

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

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

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

https://en.wikipedia.org/wiki/Mass–energy_equivalence