Twisted laser rays can allow us to communicate by using gravitational waves.
Twisted laser rays can allow us to communicate by using gravitational waves. And they can make antigravity possible.
Laser light interacts with gravitational waves. Gravitational wave detectors are proving this thing. So if gravitational waves can affect laser rays, also laser rays can manipulate gravitational waves. The idea that researchers manipulate gravitational waves by using twisted laser rays means that the system uses a similar-looking structure to X-ray lasers. Two laser rays are traveling side by side through gravitational waves. The laser system uses laser rays as hollow electromagnetic tornadoes that separate their inner structure from the outside effect.
The electromagnetic tornado just separates part of the gravitational field from its environment. The known gravitational wave wavelength is extremely long. And laser- or photonic tornado just touches those gravitational waves at so many points that the system can manipulate them. The communication with gravitational waves is an interesting thing. Whenever light quantum hits the gravitational wave it increases the gravitational wave power.
The reason why gravitational interaction is so weak is that those gravitational waves have so long wavelengths. This causes a situation in which energy changes in particles are so long-term that they do not send photons. Or they send long-term low-energy wave movement.
Diagram of twisted laser rays. The twisted laser rays increase the electromagnetic field's power if that field is between those laser rays.
Twisted laser rays can form an electromagnetic tornado that can manipulate gravitational waves if that beam hits the target often enough. The system might look like an X-ray laser (above). But it must be far denser, that it can increase the gravitational waves' power. The photonic tornado causes the maser-emission into the gravitational waves that travel inside that photonic tornado.
The thing that makes particles visible is the photons that they send when energy stress ends. When energy stress ends, particles attempt to reach the same energy level with it's environment. So it sends the energy impulse or photon until the energy levels between the particle and its environment are at the same level.
When a particle gets a very strong energy load it releases its extra energy faster if the energy load suddenly stops. The gravitational waves are acting like all other wave movements. But the extremely long wavelength causes that change between energy levels to be so gentle that radiation or energy is released from particles so weakly that the interaction is weak.
The long wavelength gravitational waves are confirmed. The short wavelength of gravitational waves is not yet confirmed.
However, researchers can use the same system to make antigravitation possible. Theoretically, antigravitation is a simple thing. The antigravitation system must just cut the gravitational interaction between the object and the gravitational center.
That means the antigravitational system must just cut the gravitational wave's route between the object and the gravitational center. Somebody introduced that antimatter (Electron-Positron) annihilation can make so powerful and tight energy impulse that can push gravitational fields away from the object.
The idea of the antigravity is simple. Because gravitation is radiation and the gravitational effect is forming through those gravitational waves it's possible to cut the gravitational interaction simply by sending gravitational waves vertically through gravitational waves that are moving horizontally between the gravitational center and objects around it. The high-power gravitational waves that cross weaker gravitational waves can cut gravitational interaction. The gravitational waves act like all other wave movements.
The antigravitation acts similar way as the sound wall or sonic wall. In that acoustic phenomenon moving air molecules that travel between the sender and receiver of the sound cut the wave movement's route from the sender to the receiver. This is one thing that the next-generation systems can make.
https://www.newscientist.com/article/2393613-twisted-lasers-could-let-us-send-messages-with-gravitational-waves/?utm_campaign=RSS%7CNSNS&utm_source=NSNS&utm_medium=RSS&utm_content=home
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