The MIT researchers got images of the quantum tornadoes.

Image 1) The artist's concept of the quantum tornado. (ScitechDaily/MIT Physicists Watch As Ultracold Atoms Form a Crystal of Quantum Tornadoes)

There is an image of the quantum tornado above this text. This thing can use to model how the galaxies are forming.  But in the future, quantum tornadoes can also use to protect qubits in quantum computers. 

Quantum tornadoes are electromagnetic fields that are acting a little bit like a tornado. Those electromagnetic tornadoes can use to isolate the qubits when they are traveling in the quantum computer. Or quantum tornadoes could use it to transmit data themselves. The thing that makes quantum computers safer than binary computers is that if the data is tried to steal from qubits the computer notices it. 

This thing uncovers the attempts to steal information. The problem with quantum tornadoes is that they are possible only in extremely low temperatures. On Earth those phenomena are short-term. But in stable conditions of the interstellar universe, the quantum tornadoes can remain for a very long time. 

Scientifically quantum tornadoes could give information on the behavior of high-energy particles. There is the possibility that even the wormholes or at least electromagnetic wormholes would be some kind of quantum tornado. The temperature and wave movement is weaker in the universe and the high-energy particles can create a very long-term quantum tornado while it travels between stars than it is possible to make in laboratories. 

Conditions of the laboratories on Earth have problems with planets rotation. But also things like the radiation effect. And especially the Cherenkov radiation and ground-based radio-active radiation, the changes in the magnetosphere. And neutrinos that are flowing from the Sun can disturb the quantum tornado. 

So if we want to research this type of phenomenon we should create a stable laboratory in the Kuiper belt. The most out layer of our solar system. Temperature and radiation conditions in those areas are different than on Earth. And that thing makes it possible to research the technology and phenomena that are possible only in extremely low temperatures and stable radiation conditions. 

https://futurism.com/the-byte/mit-quantum-tornadoes

https://scitechdaily.com/mit-physicists-watch-as-ultracold-atoms-form-a-crystal-of-quantum-tornadoes/

Creating oxygen in dark is the thing that makes it possible to use fuel cells in long-term space missions. 

There is one vision of a nanotechnology-based system. That can create oxygen and hydrogen in total darkness by using electrolysis. The system would be the nanotechnical generator. That flows on the surface of the water. There is the float and the small tube that is on the down to the bottom. 

The water will flow through that tube and rotate the small generator. The electricity of that generator will use to break water molecules into hydrogen and oxygen. This kind of system can create hydrogen and oxygen for the fuel cells everywhere where is water or some other liquid that can travel through the tube. 

So that system can operate in Antarctica or the Icy Moon of Jupiter. It can create hydrogen and oxygen for rocket engines in cases where is no possibility to use nuclear power. So those things can use as auxiliary power supplies for the spacecraft. Or they can use it to create electricity for the small submarines that can someday operate under the ice of the icy moons of Jupiter. 

The microbes can form oxygen in the dark.

There are microbes in oceans that are forming oxygen in total darkness. That process is not so effective as it would be in sunlight. But that internally produced oxygen keeps those microbes alive. This type of microbes are using cold reactions. But the first bacteria that created oxygen to water might use the volcanic temperature for creating the energy for their chemical processes. 

If the oxygen-producing microbes can connect with the organisms. That is living in the heat of the volcanic sources. 

The hybridization between those bacteria and the green algae could make the microbes that can produce oxygen in darkness. If someday there is the possibility to create synthetic bacteria that can use the heat of nuclear reactors to create oxygen. Or the probes can use the geothermal energy of the icy moons to create oxygen for their fuel cells. But those things are futuristic visions. 

Those organisms can use in long-term space missions to create oxygen for the crew.  But the same oxygen can use also in rocket engines and fuel cells. That means the sub-probes of the nuclear-powered interplanetary probes can use the biological component for creating the oxygen and hydrogen for their sub-systems. 

https://phys.org/news/2022-01-microbes-oxygen-dark.html