Gravitational waves are the next tool for creating new models for cosmology.

Gravitational telescopes can be sharp as optical telescopes. They might use miniaturized nanotechnology, which means the small-size cells and the laser rays might jump between the edges of the cells. That thing makes it possible to create the miniaturized version of Ligo.

And the length of laser rays that measure the gravitational waves can travel the journey of thousands of kilometers in the nano-size systems. Those systems can form large entireties. And maybe someday in the future, we can create a gravitational telescope that can be aimed to the point, where gravitational radiation comes.

In some visions, gravitational telescopes can be a large group of miniature satellites. Between those satellites travels laser rays like a giant spider's web. Those miniature satellites can also have an optical sensor that helps them to detect cosmic reactions and aim the laser web at those points. That kind of system can be the James Webb-telescopes gravitational version.

Maybe gravitational telescopes are like these futuristic mega telescopes. The gravitational super-telescope along with the James Webb telescope can give more data about the universe than any system before.

Gravitational James Webb-telescope can be the most powerful sensor. That has ever been created. The reason for that is simple. Gravitational waves are brand-new tools in astronomy and cosmology. Deep knowledge of gravitational waves and their nature can help to make things like WARP drives and other very interesting tools. The antigravitation makes it possible to turn large objects out from the trajectory. Antigravitation should be possible because gravitation is radiation. And all radiation can turn in another direction.

Gravitational waves can uncover secrets of a black hole's internal structures. And they can also use it to see things that are invisible to us. Because gravitational waves are brand new observation tools, that means. Every single new gravitational sensor can give a new type of information about the reactions in our universe.

Maybe gravitational waves can answer things like what the fourth dimension looks like, or maybe someday, gravitational waves can prove the existence of the multiverse. But the technology that detects gravitational waves is quite new. And that means there would be lots of new information about the universe and what gravitational waves can bring.

https://anewtonsapple.blogspot.com/2023/06/the-claimed-antigravitational-engine.html

https://scitechdaily.com/harnessing-gravitational-waves-to-explore-the-early-universe-and-answer-fundamental-questions-in-cosmology/

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Researchers think that the multiverse is not fiction anymore.

Multiverse means that our universe is one of many universes. The reason why researchers and scientists believe that this is true is that logical. About 50 years ago people didn't know that there were other solar systems. Exoplanets were only theories in the 80's. About 400 years ago people thought that our Sun was the only star in the universe. Edvin Hubble proved that our galaxy, Milky Way is one of many galaxies. Then researchers found that galaxies form groups, and supergroups. That means that today we think that the universe, where we live is the ultimate supergroup of galactic supergroups. And logically thinking there should be other universes. We believe that the universe began its existence in an event or series of events called the Big Bang. That event did not begin, because the energy that formed material should come from somewhere. The Big Bang was not one "bang" or explosion. It was a series of events where material took form. Or the energy level that it h

Helium-3 production from tritium.

The fusion energy is theoretical level. The fusion systems are still at the laboratory level. That means there are many problems to overcome before commercial fusion systems. The fusion fuel can be produced from heavy water. The system bombs deuterium with neutrons. Or it can shoot deuterium or some other atoms against each other. That can create neutron stripping, which transforms deuterium into tritium, and then the laser systems can increase the dividing speed of tritium. In that process, tritium transforms into Heluim-3 (3^He). If the system wants to produce Helium-3 for experimental or pulsed plasma rocket engines, that thing doesn't require that the Helium-3 production must be economical. Hydrogen's heavy isotopes deuterium and tritium are the most promising fusion fuels. The problem is where the system can produce tritium or Helium3 for the fusion fuel. The 100 million K temperature allows two Heium-3 atoms can create fusion. There is the possibility to produce Hellium

Is some quantum version of the bubble pulse effect behind the dark energy?

"Dark energy’s role in propelling the universe’s accelerated expansion presents a pivotal challenge in astrophysics, driving ongoing research and space missions dedicated to uncovering the nature of this mysterious force." (ScitechDaily, Deciphering the Dark: The Accelerating Universe and the Quest for Dark Energy) Is the universe formed in energy projection? That traveled in some kind of space vacuum. That requires. That there was some kind of energy field before the Big Bang. Quantum field is the common name of all power fields in the universe. Is dark energy a gravitational version of the bubble pulse effect, that detonates submarines? In the bubble pulse effect, the bubble or some other projection. That travels in the larger bubble causing a very high explosive explosion. So could that effect be possible in electromagnetic and gravitational fields? Gravitational fields differ from electromagnetic fields because of their wavelength. In some models, the double bubble,

Why is the sky blue? From a Newton's apple to a large Hadron collider.

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