There are many ways to make a protective energy field or protective field around the structure. The protective system can turn ion beams away. Using the same polar electromagnetic fields. The minus energy field would push ions away. But the problem is this. If the ion system shoots anions to that protective field it will pull ions into it.
There are theoretical models of the systems that can create the EM-power field around the craft or other structures. The system must make symmetrical energy impacts around the structure. And one of the best candidates for that purpose is the graphene or fullerene ball.
There could be ions or electrons trapped between those carbon atoms. And then the anti-electrons will impact those ions or electrons. The system might use nanotubes for aiming that radiation in a certain direction. Then that system sends electromagnetic impulses against incoming objects.
In some visions, the cities are protected by using extremely high-power acoustic devices. The acoustic device makes the pressure wave that is harder than steel. And when that pressure wave hits incoming objects it can push them away from their course or even break their shell.
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Some experimental acoustic and electromagnetic systems can use to protect at least fixed platforms. They can also protect hovering helicopters and other slow systems. The fact is that if the acoustic wave rotates the aircraft or helicopter. Ahat wave denies the sound coming through that structure. And those acoustic waves can be ball-shaped forms around protected objects.
In some visions, the acoustic systems make standing acoustic waves around the protected structures. The acoustic system can make the standing wave by impacting pressure waves. The structure itself sends the acoustic waves. And then quadcopters around it are sending counter waves.
Then the system sprays small particles in that wave. Then those particles will put to orbit the structure. And that thing makes friction that heats the air. When some ammunition comes to that standing wave it breaks it immediately. The particles also protect the structure like standing craft or base against laser rays.
The system can use carbon atoms to make extremely large fullerene balls. By using the standing wave as a platform. The large-size fullerene ball can protect structure against the incoming ammunition and meteorites.
The extremely hot exoplanet acts like a mirror.
The extremely hot exoplanet LTT9779 b is like ultra-hot Neptune. Cheops probe detected that LTT9779 b reflects 80% of incoming light. And that thing means that the exoplanet is like a fuzzy mirror. The regular mirror reflects about 90 % of light. And that thing makes the exoplanet LTT9779 b look like a silver or aluminum balloon. There is suspicion that the aluminum-looking UFOs are some kind of protective field test.
One version of the protective power field is the system that rotates two ion layers with opposite polarity in different directions. The other version of that system uses water molecules. That is anchored in that EM bubble. The bubble benefits water molecules and their polarity and puts them to orbit with the magnetic central axle. That thing forms an extremely hot bubble around the structure.
The system forms a heat zone that would destroy incoming bullets and ammunition before they reach the craft's physical shell. If we think that the power field also has 80% of reflection.
That means it pulls 80% of the incoming energy beam in the visible light area. If there is some kind of dust in the power field that denies that the laser cannot reach the shell of the craft.
https://scitechdaily.com/shiny-surprise-cheops-discovers-scorching-hot-exoplanet-acting-like-a-mirror/?expand_article=1
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