Twisted graphene can use in quantum computers and stealth aircraft.

The atomically twisted graphene will make lightweight quantum computers possible. 

Atomically twisted graphene can use in quantum computers. The waves of the atomic structure allow shooting qubits through the "waves" in the material. When the electrons or qubits are traveling through those waves, they can interact longer time with the graphene. So maybe some quantum processors are using creased graphene as a qubit. 

The graphene is acting as the sensor which will download data from the electron or some other particle. That travels through the net of the graphene. So the qubit is the entirety where is the transmitting antenna will send the data to the receiver. 

And in quantum-size systems, the electron will send the data when it travels through the creased or waved graphene. Each wave can download an individual state of the qubit. So maybe someday this type of material are used for lightweight quantum computers. 

The curved graphene can use in stealth aircraft.

But the curved graphene can use also in stealth aircraft. The graphene surface can have a waved form. And that thing makes it possible to make the layer which will also turn radio waves into another direction where it came from. 

But there is also possible that the twisted graphene will use in other ways in the stealth structures. If we are thinking of the 3D graphene structure that structure can trap the electrons in it. 

The electrons would drive to the battery or that electricity can conduct the back of the aircraft. That kind of system only would not make the radio waves will not reflect at all at least in the radio frequencies. 

But the thing is that there is possible to use create the quantum material which absorbs almost all light. The 3D fullerene would act as a photon trap, which captures photons between the layers. And that will deny the reflection. 

One of the things that can make it possible to create materials that are absorbing over 99,5% of light. The idea is to copy the form of the skin of deep-sea fish that is almost invisible in the darkness. In that case, the material would have a similar form with this deep-sea fish has its skin. But the artificial skin makes by using carbon. And only the shape of the things that minimize the reflection will be made to that structure. 

If the use of the stealth aircraft can predict there is possible to cover the aircraft with some gel before the flight. That means the outer layer would be the gel that covers the layer of the stealth material. That might have a very sensitive structure. In those quantum materials are very small details like quantum size hair. That means even the touch with that material can break the form of the stealth layer. 

That layer will be covered by gel, which must renew after a single flight. That gel will let radio radiation travel through it. And the layer below that gel is the thing that breaks up the reflection of the radio waves. That is reflecting from the layer. 

So if the use of stealth aircraft can predict the surface of the structure can be single-used. And the aircraft can be painted and covered by that gel after every mission. Maybe that kind of solution is not suitable for operative jet fighters. But strategic recon aircraft can use the material that must resurface after every mission. 

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