Wormholes can make the stable quantum channel in quantum computers.

Wormholes could make it possible to create stable quantum entanglement. But the problem is that nobody is made the quantum-size wormhole between quantum-size black and white holes. But virtualization of the wormhole is possible.

Theoretically, things like wormholes between quantum-size black holes and white holes can make it possible to create the most powerful quantum computers that ever be possible to make. The problem is that aiming the direction of the quantum-size wormhole is difficult and the system requires enormous energy mass.

The wormhole can aim by using superpositioned and entangled particles. And the creation of the required black hole can make by pressing the electron or proton in the middle of the ball-shaped chamber. That system can be possible somewhere in the future.

Fullerene nanotubes inside maser-rays could use as virtual wormholes.

Fullerene nanotubes inside maser-rays could use as virtual wormholes. The maser ray protects the nanotube against outcoming radiation. And the quantum entanglement can form through that miniature fullerene channel.

But the fullerene nanotubes are making it possible to make the virtual wormhole between the objects. The idea of the use of carbon nanotubes is that the quantum computer system basing on the idea that the carbon nanotube protects the qubit or quantum entanglement against the outcoming effects. The quantum entanglement can form through the nanotube.

If researchers want to make it easy that energy in the virtual wormhole travels to one direction they can put Bose-Einstein condensate at another end of the nanotube. And that causes the effect where energy travels to the side of the Bose-Einstein condensate.

And if the maser ray will travel around that nanotube channel there is the possibility to make the virtual wormhole. In that virtual wormhole would be no crossing electromagnetic fields because maser rays that travel outside the nanotube deny access to natural quantum fields in that tube. That thing protects the qubit against the outcoming effect.

The quantum computer could use the electrons that travel between laser impulses as the qubits. In that kind of system. Is easy to deny electromagnetic turbulence. The laser ray will aim at the electron. And it will push the electron through the nanotube or virtual wormhole.

See the next terms:

Black hole

Quantum entanglement

White hole

Wormhole

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