Coherent X-rays are revolutionary tools for communication and research.

What is connecting the planet Mercury with X-ray lasers?

The ability to create low-energy coherent X-rays is a revolution in communication and observation technology.

The ability to manipulate wave movement at the quantum level is one of the most fundamental things in physics. The ability to make highly accurate, coherent X-rays makes it possible to create new types of X-ray microscopes with extremely high accuracy. Those X-ray microscopes can do fundamental things in research. And those X-rays can be used as the next-generation laser communication systems. X-ray-based laser communication is one of the most secure communication systems we can imagine.

Ring-shaped X-ray structures can make it possible to create a new type of laser-communication system with X-ray frequency.

ESA/JAXA's BepiColombos probe discovered X-ray auroras at the poles of the planet Mercury. The reason that small planet has those X-ray auroras is the electron rain from the Sun. This phenomenon can be used to create new types of X-ray lasers that have high enough accuracy to be used as communication tools.

In those systems, the X-ray will pass through the ring-shaped cathode. The X-ray system makes the X-ray ring for that cathode, and the X-ray ring will input energy to the X-ray beam that travels through that ring-shaped cathode. The idea is this: Because X-rays have the same frequency, the ring-shaped X-ray formation pumps energy to the X-ray that travels through that ring.

"Artist’s representation of the ESA/JAXA BepiColombo mission flying through precipitating electrons that can trigger X-ray auroras on the surface of Mercury. Credit: Thibaut Roger/Europlanet" (ScitechDaily.com/BepiColombo’s First Mercury Flyby Unmasks Electron Rain As Trigger for X-Ray Auroras)

A magnetar, a neutron star with an intense magnetic field, can be the key even to gravitational lasers or coherent gravitational waves. 

"Astrophysicist Dong Lai theorizes that a quantum electrodynamics (QED) effect called “photon metamorphosis” accounts for unexpected observations of X-ray polarization from a magnetar, a neutron star with an intense magnetic field. Lai’s theory suggests X-ray photons passing through the magnetar’s magnetized atmosphere can temporarily transform into pairs of “virtual” electrons and positrons, leading to differing polarizations for low and high-energy X-rays". (ScitechDaily.com/Quantum Metamorphosis: Unveiling the Puzzling Phenomenon of Magnetar X-Rays)

There is a small possibility that the energy level around magnetars, neutron stars with extremely powerful magnetic fields, can reach a high enough level that it can interact with gravitons. If that interaction happens in the magnetic field around magnetar, that makes it possible to create synthetic, coherent gravitational waves called "gravitational lasers". 

The high-power magnetic fields around magnetars are causing an effect called "photon metamorphosis". In that effect, the magnetic field forms the "virtual electrons" that turn into electrons and positrons. But there is the possibility that part of the X-rays around the magnetars form when electrons impact protons. 

That effect means the X-ray polarization around magnetars The high-power magnetic fields can create situations where anions and ions start to travel around magnets. And then those particles impact each other or the shell of that neutron star. When those anions and ions react with each other at high speed, that thing forms a fusion reaction around the magnetar.

The source of the X-rays can be in the fusion itself. Or the reason for that is electrons that impact protons or some other ions. Those ions are sending X-rays to their environment. And there is a standing X-ray in the middle of the magnets. That phenomenon can also be used to create synthetic, coherent X-ray impulses. In some visions, the system uses photons to push electrons against cathodes.

The structure of the magnetic field is forming a standing wave in the middle of it. That thing forms the powerful maser effect that sends radiation to the poles of the structure. The high-power radiation that forms in the magnetic field sends radiation into the middle of it. And then that radiation can come out of the poles of magnets. The effect causes a situation where photons are pushing electrons away. Somewhere around the magnetars, a similar effect is forming as in cathode tubes.

And what if some of the gravitational waves that those magnets send are forming in their extremely strong magnetic field? There is a possibility that the density of energy in that area is high enough that it can pump energy into gravitons. If that is true, there is a possibility that a similar effect can someday form a synthetic and coherent gravitational laser. Would that thing be successful? That thing depends on the ability to create magnetic fields with high enough power.

https://anewtonsapple.blogspot.com/2023/07/the-dying-stars-impact-waves-are.html

https://scitechdaily.com/bepicolombos-first-mercury-flyby-unmasks-electron-rain-as-trigger-for-x-ray-auroras/

https://scitechdaily.com/dying-stars-cocoons-a-new-unexpected-source-of-gravitational-waves/

https://scitechdaily.com/quantum-metamorphosis-unveiling-the-puzzling-phenomenon-of-magnetar-x-rays/