Researchers created a spiral light. Today. Those spiral light formations are possible only on a microscopic scale. But if that technology turns more advanced. That system can be useful in a quantum network system. On the microscopic scale, the system can transmit information in photonic microchips. But in the long-range quantum network, information can travel through microscopic quantum channels.
And that can turn many things. Like, long-range quantum communication into reality. The system makes. The spiral light, or light tornado. That can make it possible to create an electromagnetic wormhole through air. The system. It can use a spinning nanotube. And nano-technical lasers. The system could also trap a photon to orbit some object. And then the system makes the light-acoustic tornado through the air. The light tornado protects information that travels inside it. The light tornado makes it possible. To create a long-range quantum entanglement through that channel. This kind of optical system can make information transportation more secure than ever.
But those kinds of channels make other things possible. Those systems can create a channel that allows particles to travel through the air. These kinds of systems can make things like ion cannons and antimatter-ion beams possible. Antimatter particles can be shot by using normal ion cannons. The main challenge is how to prevent. Those antimatter particles. From touching air. During their travel to the target. The antimatter beam could be possible. If. Something denies antimatter particles. Touch with material particles. If that thing is possible to deny the system, it can shoot antimatter particles through that channel.
https://interestingengineering.com/science/tornado-of-light
https://scitechdaily.com/optical-rotatum-harvard-scientists-discover-new-structure-of-light/
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