The new sensors try to find differences between the Theory of General Relativity and the Standard model.

"Illustration of two orbiting black holes warping spacetime and generating gravitational waves". (ScitechDaily/Gravitational Waves: LISA and the Detection of New Fundamental Fields – Is General Relativity Correct?)

The Theory of General Relativity is one of the most brilliant theories in the world. The Standard Model is the first theory that is made by using computers. And that thing means that they both are fundamental and powerful tools for researchers. The thing is that the gravitational waves give a new way to detect things like Dark Matter. The gravitational waves can uncover many things from the universe that we cannot observe. 

There is suspicion that gravitational waves are the energy waves that travel between particles of dark matter. So when energy impacts dark matter particles that increases their weight. And that thing could be seen as gravitational waves.

The gravitational waves are the mysterious energy waves that are traveling in the universe. The thing is that the gravitational waves can be the energy waves that are traveling between particles of dark matter. When radiation hits the particles of dark matter that radiation turns it heavier. So the radiation has a similar effect to visible and dark matter. 

It will increase its weight. And maybe that kind of radiation is the key to dark matter and gravitational waves. The thing is that gravitation is the only known common interaction between visible and dark matter. And that means the dark matter would be similar material with visible material. 

The dark matter would transmit radiation that has a wavelength that is the same as the diameter of the particle that sends it. The thing is that the proof that all galaxies don't have dark matter has caused an observation that dark matter forms similar clouds and maybe other structures as visible material. When we are thinking about dark matter. 

That thing is only invisible material. But if we would think otherwise and there would be an observer that is a form of dark matter. That observer cannot see us either. Dark matter is a mysterious state of the material. In some theories, dark matter is only the certain energy state of the material. 

And there is an interesting theory that the Big Bang just transformed some part of dark matter into material that we see. The size of particles of dark matter would be different than visible material. And that thing means that dark matter would not be observable because it transmits radiation that is invisible to us. In some wild theories, dark matter could form even stars. And solar systems. 

Those structures would interact with visible material only by gravitation interaction. Maybe gravitational waves can prove that kind of structure real. If researchers could find the gravitational field that comes from the emptiness. That thing can be the first evidence of the invisible universe. That is similar to our universe. But we cannot see that universe because it is formed of dark matter. 

https://scitechdaily.com/gravitational-waves-lisa-and-the-detection-of-new-fundamental-fields-is-general-relativity-correct/

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

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

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

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

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

Image:)https://scitechdaily.com/gravitational-waves-lisa-and-the-detection-of-new-fundamental-fields-is-general-relativity-correct/

https://thoughtsaboutsuperpositions.blogspot.com/