Combining quantum- and nanotechnology is making the new type of machinery and systems possible.

Image: ()3D-graphene structure

The superpositioned and entangled particles can use as quantum circus saws. That makes them the new tools for nanotechnology. The nanosize machines are molecules. And the form of those molecules is the thing that makes them nanomachines.

When we are thinking as an example of the difference between nanomachines and chemical medicals the difference is that chemical medicine interacts with chemical reactions. That reaction neutralizes the medicine molecule. The nanomachine interacts with mechanical way. The typical interaction between nanomachine and the targeted cell is that nanomachine slips in the cell and starts to rotate.

That system will destroy cell organelles and cut the membrane. Then that nanomachine can continue to other cells. And that thing makes wrong-used nanomachines extremely powerful weapons. One nanomachine can slip into the tissues and turn the victim to liquid. Because nanomachine itself will not interact, and that thing is chemically neutral it doesn't wake up chemical detectors that are normally alarming poison gasses.

The superpositioned and entangled particles are the smallest and same way the most accurate tools in the world. They can use to affect the single chemical bond in the molecule.

Those particles can cut the bonds of atoms very accurately. That allows cutting a certain chemical bond. And connect some other atom at that point. That thing will make the fundamental thing in molecular auto replication. If the other part of the double or higher number of bonds is cut.

There is the possibility to connect a new atom to that point of the molecule. That atom can have the ability to make two bonds. And if one is connected with that released bond and one is touching with the other atoms. That can use to make the branches for the molecule. That makes it possible to make new shapes for the molecule.

The molecular auto replication bases the carbon. By making molecular machines. There is the possibility to bring some atoms that are touching and forming chemical bonds at certain points of the carbon chain. Those atoms can be brought in the wanted points by using ion cannon. And then the quantum circus saw will cut the needed bonds of the molecules and then those atoms in those positions.

Including other atoms in graphene are increasing the abilities of that material. Graphene can position on the atom-size pillars over the layer. That thing gives it more abilities than if graphene is put straight over the layer. If there are foreign atoms in the points where carbon lines are crossing, they are acting like miniature springs. The ability to make the 3D graphene structure allows making one of the hardest surfaces for the layers.

The 3D graphene structure means that the multiple layers of the graphene are put over each other. Between those layers are other atoms that are acting like pillars between those layers. That makes this kind of nano-materials more capable than ever before. The pillars can position very accurately by using ion cannons, that is shooting them precisely in the right position.

The new 2D qubits can make portable quantum computers possible.

Making the 2D qubits is the thing that makes it possible to create new and flat quantum processors. The base element for that 2D quantum structure can be the graphene where in the middle of carbon baskets is put the extremely small antenna that can transfer the data to the carbon structure.

But the problem is how to separate signals from each line of the graphene. The ability to connect other materials or atoms with graphene makes it possible to create the 2D base for the qubit. In that case, the system bases the quantum annealing. The researchers are put the graphene on the gold film. But the ability to include other atoms inside the graphene structure itself can create the new type of qubits.

In that case in graphene is connected with other elements than carbon. Which makes it easier to separate signals from each other. But the problem is, how to protect this system against outcoming electromagnetic stress? If the cosmic radiation hits the qubit that thing can destroy the quantum computer.

()https://phys.org/news/2021-09-gold-quantum-qubits-2d-material.html

()https://phys.org/news/2021-09-adding-foreign-atoms-graphene-boosts.html

()https://phys.org/news/2020-11-d-graphene.html

Image:()()https://phys.org/news/2020-11-d-graphene.html

()https://thoughtandmachines.blogspot.com/

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