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The new tiny accelerators can make a revolution in many technologies.


"Illustration of a shoebox-sized accelerator. An electron source and buncher/injector feeds into a sub-relativistic DLA (the device described in this article), which accelerates electrons up to 1MeV in energy. These electrons are further accelerated by SiO2 waveguide-driven relativistic DLA, and finally pass through an undulator to produce coherent free-electron radiation. Credit: Moore Foundation / Payton Broaddus" (ScitechDaily, Stanford’s Tiny Accelerator Promises Giant Leaps for Medical and Physics Breakthroughs)


New tiny particle accelerators are one of the most interesting things in the world. This system makes it possible to create new materials. And one of the purposes of this kind of particle accelerator is to shoot ions into diamond structures. This system can shoot other atoms in ion form in carbon structure because ions can push carbon atoms away from their route in diamonds. That makes it possible to make diamond-based quantum computers. 

Tiny particle accelerators can also used in material research. But those systems are also suitable for plasma stealth systems. The aircraft or any other vehicle can surround using low-energy ion or anion plasma, and that thing can used to create the layer that pulls radio waves in it. That thing can make the plasma stealth true. 

The tiny particle accelerators can be the ion engine system. In ion engines, those particle accelerators can act as ion accelerators. In weapon solutions, the target can load using plus or minus electricity. Then the ion cannon shoots particles with opposite polarity. That thing makes the system pull particles to the target. 

In some models, the system can use tiny particle accelerators in antimatter engine systems. In those systems, the particle accelerators shoot electrons or protons into the gold layer. Along with the magnetic field that thing forms the antimatter like antiprotons or positrons. The antimatter system can involve multiple tiny particle accelerators. 

The problem with high-power lasers that shoot outside the atmosphere is that those systems require massive power sources. And the only small enough energy source for those laser systems has been a neutron bomb. The neutron bomb will detonate around the laser element or at the side of the laser, it gives light to the laser element. 

The antimatter or annihilation flashes can used in laser systems. Those annihilation flashes can be as bright as hydrogen bomb explosions. And the antimatter systems can replace nuclear weapons in X- and futuristic gamma-ray lasers. The extremely bright light flash can create a very bright laser ray. That is as powerful as nuclear weapon-boosted lasers, where fission elements surround laser elements. Those weapons were the most powerful lasers planned to use outside the atmosphere. 


https://scitechdaily.com/stanfords-tiny-accelerator-promises-giant-leaps-for-medical-and-physics-breakthroughs/

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