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Researchers think that the Mössbauer effect can open gravity wave mysteries.


"Utilizing Mössbauer resonance’s extreme precision, scientists have developed a new method for gravitational wave detection. This technique allows for accurate detection and analysis of wave direction and polarization, potentially transforming gravitational wave studies. Credit: SciTechDaily.com" (ScitechDaily, Mössbauer Effect: How Precision Physics Could Reveal the Secrets of Gravitational Waves)

The Mössbauer effect can help to observe gravity waves.  "In the Mössbauer effect, a narrow resonance for nuclear gamma emission and absorption results from the momentum of recoil being delivered to a surrounding crystal lattice rather than to the emitting or absorbing nucleus alone. When this occurs, no gamma energy is lost to the kinetic energy of recoiling nuclei at either the emitting or absorbing end of a gamma transition: emission and absorption occur at the same energy, resulting in strong, resonant absorption." (Wikipedia, Mössbauer effect)

The sombrero model is the thing. That explains how gravity fields form. There is a hill-looking structure in the pothole of the Higgs field.  The lower energy area around that energy hill is the particle. All elementary particles are like whisks. They are the strings in the Higgs field. When a particle spins that structure pulls energy in it. The energy travels from the whisk-looking string structure into the middle of it. And then that thing reflects. The precise point where the gravity waves reflect can be the point, where the outcoming energy field impacts those superstrings. The superstring forms a small whirl in the quantum field or Higgs field. That whirl could be the mythical graviton. The gravity wave would be like a traveling ditch or lower energy waves in space. 


"Detectors positioned equidistantly at a distance d from the source are capable of sensing vertical displacements of the Mössbauer resonance point. In the subfigure (lower right), a detector is placed behind an absorber layer (indicated in red). This configuration allows the detector to monitor the height variations of nuclear resonance peaks by accurately measuring the corresponding photon flux. Credit: ©Science China Press" (ScitechDaily, Mössbauer Effect: How Precision Physics Could Reveal the Secrets of Gravitational Waves)

In this model where gravity forms when the particle channels the Higgs field in the middle of it. Then it aims the wave movement. The origin of gravity waves is in the Higgs field in the middle of it. Then it aims radiation into its spin axle, where it travels out from the spin axle. That thing causes reflection from the particle. The idea is that particles cause potholes in the Higgs field. And then the gravity waves are the waves that form when the Higgs field tries to fill the pothole. 


Or..


The spinning particles form gravity waves. If we think that the particle is a whisk-looking structure. The spin of the particle forms the gravity waves. When a particle like an electron turns left and right that movement forms small electromagnetic low-pressure areas behind those strings. And then. Those strings let a little bit of that field travel in the particle. Wave movements form the standing wave that reflects those fields that travel in the particle. In that model, the gravity wave is the wave in the Higgs field. That is the base energy field in the universe. 

The reason why we cannot see that field is this. We are in the middle of Higgs field. The thing that supports this idea is that researchers just found the hidden electric field around the Earth. 


https://scitechdaily.com/mossbauer-effect-how-precision-physics-could-reveal-the-secrets-of-gravitational-waves/


https://en.wikipedia.org/wiki/M%C3%B6ssbauer_effect


https://en.wikipedia.org/wiki/Spin_(physics)



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