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Swirling photons can make an advance to quantum computing.


"A novel vortex phenomenon involving photon interactions was identified by scientists, potentially enhancing quantum computing. Through experiments with dense rubidium gas, they observed unique phase shifts that mimic other vortices but are distinct in their quantum implications. Credit: SciTechDaily.com" (ScitechDaily, Vortex Power: The Swirl of Light Revolutionizing Quantum Computing)

Photonic whirls can act as pillars and quantum superposition entanglement can made between those pillars.

If we think that light is fluid, and there are whirls in that fluid, we can make the ultimate quantum computers. Maybe researchers can use formulas created for models to simulate the fluid or water molecule behavior for the model of photons interacting in 3D space. Whirls are easy to create in fluid, but photons are much faster and smaller than water molecules. That makes it hard to control photons.  

In the case where the system uses formulas, made to predict fluid behavior. The quantum field where the photons travel can be the river. And photons are things like particles in that river. This kind of things 

In water is needed a stick that is put in water to make whirls. Or some pothole or hill under the surface, that forms a whirl. In the photonic flow laser or other energy rays, or black holes are sticks and potholes, that make those whirls in the photon flow. 


"Osborne Reynolds’ 1883 experiments demonstrated the transition from laminar to turbulent flow in water, which raised fundamental questions in fluid mechanics. Decades later, researchers led by Nigel Goldenfeld and Björn Hof applied statistical mechanics to solve these mysteries, showing that the laminar-turbulent transition in fluids behaves like directed percolation—a concept where flow rates determine the optimal extraction, similar to brewing coffee. Their interdisciplinary approach revealed that such transitions can be described by non-equilibrium phase transitions and provided new insights into fluid dynamics." (ScitechDaily, Cracking the Code: Scientists Solve Reynolds’ Century-Old Fluid Flow Mystery)



When we think about quantum computing and superposition and entanglement, we must realize one thing. It's not enough that somebody can make a photonic whirl. The system must control those whirls and make the quantum entanglement pairs. 

There are photon whirls in the universe. Those whirls are around black holes. It's easier to make the superposition and entanglement between photon whirls than between single photons. Laser rays transport information in those photon whirls. That is in superposition and entanglement. 

The photon whirls could revolutionize quantum computing, but the problem is how to make photon whirls that can stay long enough. In nature, stable photon whirls can form around black holes. 

And this is one of the reasons, why researchers are interested in quantum-size black holes. The graphene net can conduct energy to protons or electrons and form singularities. The problem is how to maintain those things. 


https://scitechdaily.com/cracking-the-code-scientists-solve-reynolds-century-old-fluid-flow-mystery/


https://scitechdaily.com/vortex-power-the-swirl-of-light-revolutionizing-quantum-computing/


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