Graphene can use in forming antimatter along with extremely powerful communication and multiband radars.

 

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Graphene can use in forming antimatter along with extremely powerful communication and multiband radars.

Graphene is coming out from laboratories.

Making graphene by using ionized carbon, lasers, and scanning tunneling microscopes are giving new abilities to make that one atom layer-version of graphite.

Today making graphene is easier than ever before. The carbon can vaporize in the vacuum chamber by using a laser, and then the layer, that wanted to cover will put on that carbon vapor. The carbon vapor can be ionized and shoot to layer by using ion cannon. Then the problem is how to detect the excess atomic layers? The scanning tunneling microscope can make that process easier. Then the excess atoms must be removed with a laser. The excess atoms can find by using a scanning tunneling microscope, and a laser can remove the excess atoms from the surface by making the single-atom layer of carbon atoms.

As I just wrote, the scanning tunneling microscope can detect inequality. If the system uses a scanning laser microscope the excess atoms can be removed immediately when they are detected. And that makes it possible to make larger graphene layers than ever before. Then the laser can remove extra layers of carbon leaving only the single-atom layer of graphene for covering the steel or some other surface. In that system, the scanning tunneling microscope will search the anomalies from the layer, and the laser will shoot those anomalies away.

Graphene can be used to make antimatter. In the visions, the high-power electron ray will shot through the graphene, where is connected high-power electric field.

When electrons are traveling through the fullerene layer, the electromagnetic field would turn the spin of those particles opposite. If that kind of thing can make the high-power lightning can conduct through graphene, and then it can make it possible to create a large number of antimatter particles. The use of antimatter as the electric source is simple, the antimatter particles can react with their mirror-particles in the chamber, where the silicon panels are transforming those flashes to energy.

Those particles can use in high-power rockets as "species", but they can also be used as ammunition or power source for new robots. Antimatter can be stored in the batteries or chambers, where a magnetic field will keep those particles hovering away from the layers of the chamber.

The antimatter that is loaded in the pistol bullet can destroy an entire planet.  In some extreme visions, data security is guaranteed by making qubits by using antimatter. If somebody tries to steal qubits that cause an explosion. The fact is that the antimatter particles can travel in the quantum wires, and that makes it possible to conduct those particles to the enemy headquarters. And that is one of the most horrifying visions of the use of antimatter.  

Graphene and quantum tunneling are the next-generation tools for communication.

Graphene and quantum tunneling are the next-generation tools for communication. The way how quantum computers transports data is making it safe. The data is stored in qubit what can be the electron, ion, or molecule. But also things like photons or electromagnetic wave movement can work as qubits.

A graphene is an interesting tool in quantum computers. In quantum computers, the data is traveling in the form of the quantum superposition, but the system can also make the extremely cold ions, which are shot to the receiver. In that case, the data travels in tubes. But the problem is, how to protect the data in that case.

The best version is to shoot the laser rays or sending the ions through the nanotube or series of fullerene molecules. In quantum teleportation, the laser light will transmit data, which is stored in electron or ion. The system transfers the oscillation of the electron to another electron, which is in the same line.

The quantum tunneling of graphene can use in high-speed terahertz communication systems. But this thing can use in multiband radars which are immune to jamming.

Extremely fast terahertz wireless communication can offer more internal frequencies or channels for transmitting the data by using multiple channels at the same time. And that allows making the internet, what benefits the quantum computers. The multi-band radios can send qubits through the air, but they can also work as the new multiband radars. So the same technology can benefit in many targets. And the multiband radars can transmit the data as well as detect things by using radars, which are immune to jammers.

Quantum tunneling in graphene is one of the most radical things, what can make the most powerful quantum computers, whatever imagined. That thing can increase the speed of wireless communication. And that thing would help to connect the quantum computers in the greater entirety. In this version of the quantum systems, each layer of the qubit is reserved a certain frequency. So that thing allows that the qubit can transmit through the air. By using graphene is possible to make extremely small antennas, that can send the data forward.

This is one of the things, that the new way to produce graphene allows people to make. In some ideas, electrons would put travel in the lines of graphene atoms, and if the electron travels in the electric field in the carbon atom chains the electricity of that thing can increase by stressing the quantum field around the carbon atoms by using the electromagnetic radiation, what will affect to the electrons, what is traveling inside the electric or quantum fields of the chained atoms.

Graphene can be the base material in neurocomputers, where the thousands of processors are forming the large entirety. If the large layers of graphene can be produced there can be made holes, and those nanotechnical microprocessors would install on that layer.

https://scitechdaily.com/quantum-tunneling-in-graphene-advances-the-age-of-high-speed-terahertz-wireless-communications/

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