Time crystals can make molecular-size quantum neural networks possible.

Can perpetual motion be possible at the quantum level? If that thing is possible, it can revolutionize quantum computing. 

Quantum-level perpetual motion in wobbling time crystals is an interesting phenomenon. The idea is that the atoms in wobbling time crystals recycle energy in the system. The system base is in electricity that pushes and pulls the line of the ultra-cold atoms. Because time crystal is superconducting there should not be loss of power. And if the system can recycle all energy that thing makes it a perpetual motion machine. 

When atoms inside the time crystal touch the shell. Energy travels to another side of the time crystal. So the idea is that the electricity travels to the other side of the time crystal than those wobbling atoms. And that electricity pulls those atoms to another side of the time crystal. Or otherwise, repelling electric pole travels to another side of the time crystal. 

So why the quantum perpetual motion machines are interesting? 

If we think that those wobbling atoms are so-called Rydberg atoms. That makes it possible to use those time crystals as extremely small-size quantum computers. Rydberg states make it possible to create quantum entanglements between electrons that orbit the same atom. And that thing makes it possible to create quantum-size quantum computers. 

In those systems, excitons can transport information to the Rydberg-atoms. At first one of the wobbling atoms in time crystal will ionize. And the system removes one of its electrons. Then outside the time crystal system transforms one electron into a qubit. And after that, that electron will transport information to an ion in a time crystal. That thing happens by using the exciton fission. That qubit electron turns the ionized atom into the neutral atom. Then that time crystal can start to act like a quantum calculation unit. 

The time crystals also can form a network of quantum systems. Above is the image of the convolutional neural network system. The system can put time crystals in series, and then those Rydberg atoms can make entanglements between each other. 

Researchers know how to make mass memories that use superconducting technology. The problem is that the information stands still in those traditional mass memories. The wobbling time crystals allow the creation of quantum USB memories that can process data like traditional USB can store it. If the person has a quantum-computer USB that can operate independently. Data can download into that system. And then that system can operate independently. When the operator needs that data, that quantum computer can reconnect to the system. 

The problem is how to deny the outside information affects the internal process of those time crystal-quantum computers. The AI-based system can transmit information to quantum computers. Then the operator can leave the system alone and get the answer. 

That thing makes it possible to calculate extremely long series without reserving the operator's time. So the operator can use time crystal as the intelligent USB stick. The operator can drive the formula in the system. And then the operator can turn to work with other things until the work is done. The time crystals allow to make multiple single-use quantum computers. But the problem is how to protect information inside the system. 

If the system can recycle energy inside it, it denies the effect of outside energy from the system. And that minimizes turbulence. If the system can recycle all energy inside it. That allows the system to protect information better. And the same way if the system can recycle information that makes it possible to create new answers and connections between data lines. 

 In quantum computers, ER=EPR is a problematic thing. Originally, that equation connected with wormhole theory. We can think that the wormhole is the place, where information can travel in the form, and no outside effect can disturb that information. So we can think that the time crystal is a very slow wormhole. If no outside effect can affect the information in the box, that thing means that time is stopped in the box. And that box acts like a wormhole that transports information in time. 

The ER=EPR could mean all information that travels from point A to point B. Those points can be in space, or they can be in time. The ER=EPR means that a system like the human brain forgets things. 

The reason for that is at the first system get's information in the form of ER. Then the problem is that systems handle information in cycles. And between those cycles is possible. That the outcoming effect "P" will disturb information. So the problem is how to deny outside information artifact (non-controlled)-effect affect the process inside the system. 

If the system can keep the outside artifact effect out from those quantum systems, that opens a bright future for computing. The operator can just give the mission to the quantum systems and then leave the system to make its mission. And then maybe after a couple of days, the operator can look at the solution. 

https://www.quantamagazine.org/first-time-crystal-built-using-googles-quantum-computer-20210730/

https://en.wikipedia.org/wiki/Convolution

https://en.wikipedia.org/wiki/Time_crystal