Does dark energy turn weaker?

"In physical cosmology and astronomy, dark energy is a proposed form of energy that affects the universe on the largest scales. Its primary effect is to drive the accelerating expansion of the universe. It also slows the rate of structure formation. Assuming that the lambda-CDM model of cosmology is correct, dark energy dominates the universe, contributing 68% of the total energy in the present-day observable universe while dark matter and ordinary (baryonic) matter contribute 26% and 5%, respectively, and other components such as neutrinos and photons are nearly negligible." (Wikipedia, Dark energy)

Does dark energy turn weaker? New evidence supports that model. What does that mean? That means that dark energy could have formed during the Big Bang. And the second thing is that dark energy can have a source in the material itself. The reason for that is when a particle's distance turns longer the dark energy turns weaker. So what could dark energy be? It could be energy that forms when some subatomic particles turn into wave movement. 

Or, it can be wave movement or radiation. Reflected in some subatomic structures. One suggestion is that dark energy forms in some short-living particles that turn wave movement just after forming. Those particles can be Higgs bosons that can form in a black hole's jets. Or they can be gluons that are released from atoms. Those particles turn into wave movement just after they are released. And it's possible that dark energy forms in those reactions. 

Or, it can be wave movement or radiation. Reflected in some subatomic structures. 

Sometimes its source is introduced as the strings between quarks. 

The dark energy mystery is one of the most important things in the cosmology. Dark energy is like cosmic hum without a visible source. 

That energy rips the universe into pieces. 

But when we think about dark energy and the universe's expansion. We face one very important thing. 

When the universe expands. The distance between the particles and objects grows. 

That means that the gravity effect between objects turns weaker. Some parts of the universe's accelerating expansion formed because the gravitational effect between galaxy superclusters turns weaker. Another thing is that. The interaction between galaxies in local- and superclusters and the interaction between superclusters is not similar. 

(Quanta)

In the universe: 

1) The universe itself expands. Because the distance between galaxy superclusters turns longer. 

2) The galaxy superclusters turn smaller because in those clusters gravity wins. 

3) When those galaxy superclusters turn smaller. That causes the effect. That the galaxy superclusters seem to move further away from each other. 

That causes the gravity effect between those clusters to turn into another type. The gravity field turns stronger. 

That turns the space's curvature steeper. 

And gravity potholes always turn deeper. The material will pack a denser form in the superclusters. And the distance between those material centers turns longer. The material between superclusters turns thinner but superclusters make the material denser. Also, those galaxies pump energy into the material. That is in galaxies. And especially between them.

 When galaxies are closer to each other the energy level in the galaxy supercluster is higher. But the space between superclusters turns colder. 

And that raises energy levels's difference. In and out of the galaxy superclusters and clusters. 

In a cluster. The energy level rises. And outside it, energy level decreases.

Superclusters turn hotter and space between those clusters turns colder. That increases energy flow out from those galaxy clusters. 

Galaxies are in collision course in the local galaxy clusters and sooner or later superclusters also fall into one giant galaxy. The expansion of the universe is the thing. What we see, when we observe interactions between superclusters.

But can some part of the universe's expansion be virtual? Inside galaxy clusters, gravitation wins. That means the galaxy clusters and superclusters turn smaller. That causes an effect where galaxies really move further away from each other. That means that the superclusters seem to be at a longer distance because galaxies inside travel into their gravity center. 

And that gravity center is not always in the middle of the cluster. The giant galaxy in the corner of the cluster can also be the gravitational center. And that means the gravity center is not always in the middle of the cluster. 

https://www.quantamagazine.org/is-dark-energy-getting-weaker-new-evidence-strengthens-the-case-20250319/

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