"Since the 1960s, advancements in laser technology have aimed to enhance peak power and produce light at shorter wavelengths, with significant progress marked by the development of chirped pulse amplification in the 1980s. Current research focuses on overcoming challenges in generating coherent gamma rays, a critical step toward revolutionary applications in imaging and material studies. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, Is a Gamma-Ray Laser Possible?)
Is a gamma-ray laser possible? The problem with gamma rays is that they are the most high-energy radiation. The wavelength with that radiation type is the shortest known. The gamma-ray laser must be able to reflect the gamma rays. However, one of the biggest problems is producing synthetic gamma rays. The answer can be in the antimatter. The antimatter explosions can make it possible to create synthetic gamma rays around the system.
Theoretically, gamma-ray laser is quite easy to make. The system is the tube that filters other wavelengths except gamma rays. The tube will be in the gamma-ray source like a nuclear reactor. The idea is that the gamma rays come from the bottom of the system and travel through the tube.
And the side-coming gamma rays press that radiation into one package. That system looks a little bit like microwave amplification by stimulated emission of radiation, MASER or LRAD where bottom coming radiation travels through the radiation field. And that radiation field presses the gamma-ray pike into the one coherent structure.
Above: The idea of the gamma-ray lasers is that gamma rays travel through the high-energy plasma ring that sends gamma rays into that radiation pike. The problem is how to make so high energy plasma, that it can transmit gamma rays. The system looks similar to the black hole's plasma ring. The combination of high-energy magnetic fields, lasers, and antimatter can make it possible for researchers to make an energy level, high enough to create synthetic gamma rays.
The gamma-ray laser model.
1) Side gamma-ray chamber.
2)Bottom gamma-ray chamber
3+Arrows) Gamma-ray emission
The system forms gamma rays in the gamma-ray chambers using antimatter-matter annihilation. The system filters other wavelengths, than gamma rays. and that allows to creation of pure coherent gamma-rays. The system looks like the maser system that creates coherent microwaves.
The other version is to make high-energy ions, and anions impact the laser system's gamma-ray creator. The gamma-ray creator might use the black hole as the model when it creates the gamma rays. The gamma-ray source sends gamma rays through the ion-anion impact ring. The impact chamber is like the Tokamak fusion reactor where the system forms the high-energy plasma ring.
That plasma ring injects energy into the gamma rays that travel through the ring. The anions and ions with laser and antimatter systems purpose is to raise energy in the plasma ring so high, that it can start to create gamma rays. So, the gamma-ray lasers look like LRAD. However, the wavelength that the system uses is different. The thing that makes the gamma-ray lasers hard to make is the energy level that they use. The system requires so high energy, level as fusion reactors use. And that makes it hard to control them. However, the energy stress in those systems lasts a shorter time than in the fusion.
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