This model is easy-to-use. Think of the quantum vacuum as a bubbling brew. But the bubbles, beginning at the Planck scale, expand at the speed of light, a lot faster than an air bag. The surface area, A = 4pi(ct)^2, is a virtual photon, unless there is energy E=hf which is localized on the surface somewhere. For quantum entangled photons, they are on opposite sides of the sphere. By controlling the location of the entangled photons, you can control the entanglement (captured sphere). The center of the sphere denotes the center of the inertial frame that this sphere contributes to. The expanding surface carries a small amount of momentum (a tiny fraction of dark energy). Empty space generates expanding spheres which contributes to the Casimir effect. Matter absorbs these spheres and uses them as wave functions for quantum systems until they escape and continue to expand. The absence of expanding spheres (Casimir effect) is what we experience as gravity. The first expanding sphere had energy E=hf= energy of the big bang. All subsequent expanding gravitons are like children of the first expanding sphere. Calculations of the expectation value for position and momentum are the effect of two expanding spheres coming together, creating possible states for particles to occupy. The overlap of expanding spheres creates the virtual particles for the standard model, not vibrating strings. Feel free to pluck this idea 💡 like a flower, because it won't be published in a peer review journal.
@PetraKann
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I find your little fairy tale very hard to believe. The surface area of a virtual photon is 4π(ct)^2 ??? What are the limits on “t” ?
@wulphstein
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It is nice to see physicists being more flexible and creative in their thinking about physics. But with all due respect, your approach is wrong. Talking about worm holes is like contemplating a tornado when you don't know what tornadoes are made of. You have to know what spacetime is made of in terms of something you can control in the lab or with equipment. There is so much more to say, but spacetime is directly related to quantum entanglements in the sense of, whatever spacetime is made of, it's closely related to entanglement. You can use entangled photons to create warp fields which let you create a wormhole effect.
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