Twistoptics can be the key to the most advanced quantum computers.

 

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 Twistoptics can be the key to the most advanced quantum computers. 

 

(Image I) Two slabs of boron nitride crystals are dynamically twisted concerning each other. At certain angles, the incoming laser light (orange beam) can be efficiently converted to higher energy light (pink beam), as a result of micromechanical symmetry breaking. Credit: Nathan R. Finney and Sanghoon Chae/Columbia Engineering (Two Slabs of Boron Nitride Crystals Are Dynamically Twisted)

(Image II )A schematic of the experiment. Boron nitride crystals are etched into micro-rotator shapes and pushed by AFM tips. In this way, the symmetry of the interfacial lattice structure (the zoom-in inset) is dynamically tuned, resulting in modulated efficiency of optical frequency conversion. Credit: Nathan R.Finney and Sanghoon Chae/Columbia Engineering (Boron Nitride Crystals Etched Into Micro-Rotator Shapes)
All text and image to this point (https://scitechdaily.com/twistoptics-a-new-efficient-way-to-control-optical-nonlinearity/)

This technology can be used in very fast microprocessors

A couple of words about photon microprocessors.

The photon-based microchips are acting like normal microchips. But the data travels in the processor in the form of light. When the light is on, the value of the bit is 1, and when the light is closed the value of the bit is 0. The laser light travels to the photovoltaic cell, where it forms a photoelectric reaction.

The new and powerful optical element can make the new type of microprocessors faster than ever before. If we are looking at the image above, there are two cubes, that can rotate opposite to each other. Those cubes are reflected light in the desired direction. If that system can be used to reflect the light precise wanted direction to the nano-size photoelectric cell, what might be the bite of silicon, that structure would turn the photon-based microchips very fast.

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The qubit of the future might be like the house. 

 

The qubit of the future might be like the house. The layers (or quantum positions) might be like the floors. The system can use full of the system, or each of the floors separately. Theoretically, it just needs the nanotube-structure, where the qubits are traveling through the multiple layers of the nanotubes.

So each nanotube can transmit the qubit, or the entirety of the nanotubes can operate as the macro- or super- or frame qubit. Every individual nanotube of the structure can operate independently or the entire structure of nanotubes can operate as the entirety. And that makes the system more powerful.

Photon-based quantum computers would be similar to normal microprocessors. When the laser ray travels through the nanotube, the value of the system is 1 or 0. and the number of the nanotubes, what the light passes is the value of the qubit. So if the qubit has values 0,1,2,3,4, the capacity is very much higher than people even think.

But if the qubit can use each layer or the quantum positions independently it can have more capacity than a regular qubit. In that kind of situation, the qubit would have values 0,1(0,1),2(0,1),3(0,1),4(0,1), which means that the qubit can have eight layers, which can transmit data together or independently. That means qubit might use only layers 1 and 3, which makes the qubit flexible. 

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In the future, the qubit might have the ability to use each layer or quantum position separately. Each value might be sublevels of the quantum positions, which can operate independently. So every layer of the qubit might have two sus-layers, which means that the capacity of the qubit is incredible.

That kind of qubit can be made by using nanotubes, which is letting the light travel through them. And that thing makes it possible to create a small and extremely powerful photon switch, which can cut the light in the nano-second accuracy.

But if those bites or cubes are created by using the nanotubes they can cut and let the light go through the rotating structure with a very high accurate time, that thing makes it possible to create the system, that would transmit data with extremely high speed. The nanotubes can make it possible to make the qubit, which is basing the similar technology.