Can gravitational waves have similar wave-particle duality as other wave movements?

     Can gravitational waves have similar wave-particle duality as other wave movements? 

In some models, a graviton is a closed string. It's like a skyrmion that has different wavelength than regular skyrmions. 

Gravitational waves don't seem to have a similar particle-wave movement form as other wave movements, electromagnetism, and weak and strong nuclear forces. But gravitation is one of the four fundamental forces, but the missing thing is the hypothetical gravitational transportation particle called the graviton. Because all other fundamental forces have those forms. And that means the gravitation should have particle form. 

But the question is always, where that particle, graviton can be? And what is the shape of the graviton? The graviton is a so-called "should be" particle. Some researchers think that a graviton is a quantum-size primordial black hole that explains many things. And one of those things is why it is not detected. If graviton exists that thing is a good candidate for dark energy source and dark matter. 

"The signal from the gravitational wave event GW190521, as seen by all three active gravitational wave detectors at the time: LIGO Hanford, LIGO Livingston, and Virgo. The entire signal duration lasted just ~13 milliseconds, but represents the energy equivalent of 8 solar masses converted to pure energy via Einstein’s E = mc². This is one of the most massive black hole-black hole mergers ever directly observed. The raw data and theoretical predictions, both shown in the top 3 panels, are incredible in how well they match up, clearly showing the presence of a wave-like pattern." (BigThink.com/Do gravitational waves exhibit wave-particle duality?)

Could hypothetical graviton be some kind of quasiparticle? The short-term wrinkle in crossing wave movement can cause an effect that we can call graviton. If graviton is like wrinkle. That exists only a short moment. That thing can explain something about gravitation. 

If the quasiparticle called graviton is like an accordion, that form will release its tension. Or that quasiparticle turns straight very soon after its forming. That opening wrinkle can cause an electromagnetic or quantum vacuum at that point. Then those quantum fields fill that point. And then those quantum fields impact each other. That thing causes reflection that we see as gravitational waves. 

"This diagram, dating back to Thomas Young’s work in the early 1800s, is one of the oldest pictures that demonstrate both constructive and destructive interference as arising from wave sources originating at two points: A and B. This is a physically identical setup to a double slit experiment, even though it applies just as well to water waves propagated through a tank". (BigThink.com/Do gravitational waves exhibit wave-particle duality?)

"A series of particles moving along circular paths can appear to create a macroscopic illusion of waves. Similarly, individual water molecules that move in a particular pattern can produce macroscopic water waves, individual photons make the phenomenon we perceive as light waves, and the gravitational waves we see are likely made out of individual quantum particles that compose them: gravitons." (BigThink.com/Do gravitational waves exhibit wave-particle duality?)

When we research gravitational waves we must use the models. That created electromagnetism. The idea is this. When two gravitational wave skyrmions hit together. That thing should wrinkle those waves to the point, where they cross each other. That warp can be the graviton. In this model, gravitation is mainly wave movement, but there could be short-term wrinkles in wave movement that can be the quasiparticle called the graviton. 

But can gravitational waves get similar wave-particle duality with other wave movements? The question is simple. Could it be possible that some stable particles formed in the wave-particle duality of gravitational waves? That kind of thing is interesting. But then we must think the shape of those particles could be something different than other particles. 

https://bigthink.com/starts-with-a-bang/gravitational-waves-wave-particle-duality/

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