Gravity without mass.

If we think that quantum vaporization makes things like gravity. That thing is very simple to introduce if the Higgs field or base energy field, in the universe exists. When particle vaporization starts. It sends energy impulses that we can call gravity waves. The particle sends gravity waves because the energy field in the expanding universe turns weaker. 

And that thing means that the particle sends waves. When a particle sends those gravity waves it loses its mass or its size. The expansion of the universe means that the particle expands because outside the quantum field turns weak. When a particle loses its mass or its size the quantum field from the outside tries to fill that empty space. 

The requirement for the existence of the particle is that there is a quantum low pressure in the inner space of the particle. The outer quantum field keeps those quantum strings in their form If that quantum field disappears the particle loses its existence as a particle. 

One of the things that make those quantum fields fall into particles is the whisk-looking structure that forms their shell. When a particle expands it spreads the holes between those quantum strings. That lets the outside quantum field travel in the particle. 

When the energy field falls in the particle it reflects from its structures. Sometimes dark energy is also introduced to form in the cosmic voids when energy falls in there and reflects from its structures. 

The Gravity effect is the movement in the gravitational field. The gravitational center doesn't create gravity. If puts gravity waves moving.  The thing that puts gravity waves moving can be the lower energy point in the gravity fields. Or something that causes the asymmetry in the field. This means that gravity doesn't require mass. 

Gravity without mass is possible. We can think that gravity is wave movement that carries energy. The gravity model. Where gravity is field movement that pulls particles into it explain its unique interaction and unique ability. So gravity without mass means that there is some kind of low-energy area in the field that moves in gravity. 

We can say. The Higgs field, or base energy field in the universe. Can explain all things in gravity. And gravity is like a river that takes particles with it. So there must be something that puts the Higgs field moving. The movement of that field is gravity. 

The field effect model means that things like cosmic voids can act as a virtual mass. The virtual mass or virtual particle means a lower energy point in the Higgs field that puts the field moving into that thing. And that means that those virtual objects can make gravity without mass. 

The universe is like a bubble in the middle of nowhere. That means it's at a higher energy level than the space around it. Energy travels outside this bubble. And that thing puts the field moving. If that field model is true there can be some kind of giant cosmic void or lower energy area in the middle of the universe. 

That lower energy area pulls the Higgs field into it. That interaction where that field travels into the universe and out from the universe forms the lower energy areas into the cosmic structures. And if the geometrical shape of the universe is like a flat disk there are similar structures as in the rings of planet Saturn's ring system. 

When the gravity field starts to travel to the gravity centers it forms an electromagnetic shadow ahead of the particle. The reason for that is that those energy fields travel faster than particles. The field pulls also photons, but for some reason, photons don't cause that shadow. And that is the reason why the mass affects the force of gravity. The high-energy particles are thicker and that's why their mass is high. The depth of the energy shadow ahead of the particle determines the strength of gravity interaction. 

When the gravity center starts to pull particles into it it stretches the particle's quantum field. That effect means that the quantum field around the sides of the particle scrunches the particle. And lower energy areas at the front of the particle stretch them. That turns particles into flat spaghetti-looking structures. So can material travel through a black hole's event horizon? If we think about structures like planets the question is about thing does the black holes rip particles away from each other. Or does it rip superstrings into pieces? 

And sooner or later those energy shadows will touch each other. That thing increases the power of gravity. Same time the energy, or quantum field turns into like droplet. The outside field pushes particles smaller and the lower energy area at the front of the particle pulls it forward. 

The thing that is important in the material is the outside energy must be stronger than the particle's inside energy. The outside energy pushes the whisk-looking structure of the quantum stings into its form. The low-energy particles have a less dense structure. And they let the energy travel through them. And the high-energy particles are denser. That makes the shadow ahead of them deeper. 

One of the reasons why researchers are interested in gravity is this. Gravity affects the system like cold energy. It pulls all particles with it as an entirety. So when gravity moves objects it will not destroy entireties. When gravity pulls atoms it simply pushes them into bags and then moves them with their quantum fields. 

The antigravity means that there is a channel in the Higgs field at the front of the object. That channel pulls objects into it. The wormhole would be only a long channel in the Higgs field. The same way things like gravity-based tractor rays would work like this. There is a system that makes channels in the energy field. Then the pulling side is at the lower energy level. And that thing makes energy travel in one direction. 

https://www.universetoday.com/168887/how-gravitational-waves-could-let-us-see-the-first-moments-after-the-big-bang/