Acoustic wormholes and long-distance ion beams can be the next-generation tools.

  

"Artist’s impression of optoacoustic computing. Credit: Long Huy Da" (ScitechDaily, AI Efficiency Breakthrough: How Sound Waves Are Revolutionizing Optical Neural Networks)

Acoustic wormholes and long-distance ion beams can be the next-generation tools. 

Acoustic systems can revolutionize optical networks. 

The acoustic beam means energy or particle beam, where energy travels in or between molecular-size structures. The term acoustic laser means the coherent soundwave that travels in the air. The reason why researchers are interested in acoustic systems is that those systems transmit cold energy. The acoustic systems can play molecule billiards. And researchers can use them to assemble nanomachines. 

The U.S. military and police's LRAD (Long Range Acoustic Devices) are one example of acoustic lasers. In "acoustic lasers". The acoustic system pushes the soundwave into a very thin form. Some acoustic systems use diamonds to make powerful, highly accurate, and thin sound waves. This kind of system makes it possible to cut even metals with a very high accuracy. 

Acoustic waves can also transmit digital data. The acoustic system can send acoustic waves to the piezo crystals. That can transform them into digital form. The LRAD systems also can make it possible to send very accurate binary data through air. The system itself is a modem. That is connected to the acoustic lasers. Accurate acoustic systems can used to create highly accurate sonars. 

If the sonar system uses LRAD technology it can create powerful soundwaves that are invisible from the sides. The highly accurate acoustic systems can create a powerful acoustic wave that can break even metals. This kind of system can turn the sonar system into a weapon, that breaks the submarine shell. 

Acoustic systems can make it possible to send qubits through the air. In those cases, acoustic systems can drill holes in the air. The system can use things like acoustic diamonds to make the acoustic tornado, which makes the vacuum channel through the air. The acoustic systems can also transport energy in the small piezo-crystals. And that thing can help to control the miniature LEDs. And other kinds of systems. 

Acoustic wormholes. And Tesla's death ray. The acoustic wormholes can make it possible to give long-distance antimatter injection to the target. 

The Tesla's death ray could be an acoustic wormhole through the air. Or it might be the electron beam, artificial lighting, that travels through an artificial eruption channel. The coherent micro- or radio waves can create that eruption channel. That helps to aim an electron beam at the target with a very high accuracy. 

But, if we want to make a long-distance shot in the atmosphere, we must create a vacuum channel through the air. Ions do not travel long distances in the air, because they hit air molecules. And those impacts neutralize those ions. That means the ion beam is not dangerous in the air. The acoustic wormholes or vacuum channels through the air make the ion beam unable to release its energy. And if the system shoots protons in the electron rays those protons keep those ion beams in their form. 

The acoustic wormhole or vacuum channel or vacuum tunnel through the air makes it possible to send long-distance antimatter beams through the air. The system must only deny the antimatter touch with the regular material. If that thing is possible. The antimatter ion cannon is possible. 

It's possible to shoot antimatter ions to the target through the air. If there is a vacuum channel that denies the antimatter ion touch the air molecules. The antimatter ion beam that travels in acoustic wormholes can give the possibility to send highly accurate anti-matter impacts to the target. And that system can make the antimatter-ion cannons the next-generation replacers for nuclear weapons. 

The acoustic systems can used to make the ions travel longer distances in the air. If researchers connect the acoustic system to the lasers. It can used to make acoustic wormholes. In those systems, the laser creates a vacuum channel through the air, and then the acoustic system creates the sound tornado around that channel. That acoustic tornado closes the vacuum channel in it. And the acoustic tornado denies outcoming air to fill that channel. 

The acoustic wormhole can make Tesla's death ray true. The ion cannons can shoot ions and anions through those channels. If there are positive ions in the electron beam. That electromagnetic pull keeps the beam in its form. The acoustic system can make it possible. That the ions and electrons can travel in the vacuum channel. In the channel must be two internal acoustic beams that deny the electron touch with protons. And that makes it possible to shoot ion beams in long range. The system must only deny the ion touch with air molecules. The system must separate negative and positive components. 

Maybe Nikola Tesla's original idea was simpler than this. The idea could be that the death ray system creates the eruption channel through air. The maser (Microwave amplification by stimulated emission of radiation) or coherent radio waves can create an ion channel through air. That channel forms the artificial eruption channel through the air. Then the system can release an electron beam through that channel. 

https://scitechdaily.com/ai-efficiency-breakthrough-how-sound-waves-are-revolutionizing-optical-neural-networks/