The laser technology and the applications around them
A new type of lasers is giving a chance to create images even from the nucleus of atoms. When we are talking about lasers, what are used in high definition metering systems, we must remember that those lasers must have a shorter wavelength than the size of the measuring object.
And that makes difficulties to select the medium or color of the laser ray. The most powerful chemical lasers, carbon dioxide lasers have one very interesting quality. That quality is that the medium, what is the chemical combination transmits the energy with two frequencies because the laser would send that energy by using the spectral line of each element.
So if we would want to create a laser, what uses the wavelengths of oxygen and hydrogen, the only thing, what we must do is to use chemically cleaned water. Lasers are extremely good scanners and scanning the surface is a fast and effective way to find out the errors even in large surfaces and lasers can work in long distances. So the laser scanners can read things like fingerprint even in the distance of kilometers.
Ion-lasers would base technology, where the ions would float in the magnet field, and that magnet field denies them to touch the wall of the chamber. This theoretical technology created originally for storing antimatter, but those magnet bottles can store also things like electrons and proton ions. If that chamber is equipped with the laser-mirror system it can use to create laser light, when the medium is stressed with electromagnetic radiation.
But if we would want to create a laser, what scans atoms, we must choose the atoms for medium, what is sending the shortest possible wavelength, and that means that if we would have and ability to use protons, where is no electrons in orbitals, we could take photographs even from the atoms. This laser would be called as the "proton-ion laser". But the hydrogen-laser would also give so short wave laser beam, that it can be used to meter and imaging the other atoms.
There is a theoretical possibility to create a laser beam by using electrons, what is stimulated with electromagnetic radiation. The technology of this laser is a little bit different than using the normal free-electron lasers, where electrons are driven through the particle accelerator and the changes of the track would cause the sending the photon.
The technology would work that way the ions or electrons are closed in the chamber and the magnetic field keeps them out from the walls, and then to the chamber would conduct the electromagnetic radiation. And that stress would make those particles for creating laser beams.
The electron-positron collision might create extremely bright light. And that allows making X-ray lasers, which can be used many times. This would be a great advantage in comparison with the nuclear bombs, what are vaporizing entire laser after one shot.
When we are thinking the military lasers, the high power laser wound not need extreme sharpness, if they want to use to destroy some targets. That means that the power of the flash of the laser is more important than any other things. The short and powerful flash is important when the location of laser want to hide. Use of the acetylene light would allow creating lasers, what is needed very low electricity.
The bright acetylene light would make possible to create a very powerful beam, and if the laser is installed in the fast attack airplane the ram-air can be used for cooling those elements. But if we are thinking about the more powerful laser beams, we might need more powerful flashes, if we want to create the X-ray-laser, what can shoot more than one shoot. Normal X-ray lasers would use small-sized nuclear bombs, what are exploded around the laser element for creating a high-energy beam, which can destroy targets very sharply.
But the problem of those systems is that they are single-use. Using anti-electrons or positrons what would annihilate with electrons around the laser element, would be possible to create the brightest laser beam, what could be even possible to find in nature or the entire universe. That technology would allow creating the X-ray laser, which is capable of many shoots, and that thing is very interesting when we are thinking about modern laser technology.
A new type of lasers is giving a chance to create images even from the nucleus of atoms. When we are talking about lasers, what are used in high definition metering systems, we must remember that those lasers must have a shorter wavelength than the size of the measuring object.
And that makes difficulties to select the medium or color of the laser ray. The most powerful chemical lasers, carbon dioxide lasers have one very interesting quality. That quality is that the medium, what is the chemical combination transmits the energy with two frequencies because the laser would send that energy by using the spectral line of each element.
So if we would want to create a laser, what uses the wavelengths of oxygen and hydrogen, the only thing, what we must do is to use chemically cleaned water. Lasers are extremely good scanners and scanning the surface is a fast and effective way to find out the errors even in large surfaces and lasers can work in long distances. So the laser scanners can read things like fingerprint even in the distance of kilometers.
Ion-lasers would base technology, where the ions would float in the magnet field, and that magnet field denies them to touch the wall of the chamber. This theoretical technology created originally for storing antimatter, but those magnet bottles can store also things like electrons and proton ions. If that chamber is equipped with the laser-mirror system it can use to create laser light, when the medium is stressed with electromagnetic radiation.
But if we would want to create a laser, what scans atoms, we must choose the atoms for medium, what is sending the shortest possible wavelength, and that means that if we would have and ability to use protons, where is no electrons in orbitals, we could take photographs even from the atoms. This laser would be called as the "proton-ion laser". But the hydrogen-laser would also give so short wave laser beam, that it can be used to meter and imaging the other atoms.
There is a theoretical possibility to create a laser beam by using electrons, what is stimulated with electromagnetic radiation. The technology of this laser is a little bit different than using the normal free-electron lasers, where electrons are driven through the particle accelerator and the changes of the track would cause the sending the photon.
The technology would work that way the ions or electrons are closed in the chamber and the magnetic field keeps them out from the walls, and then to the chamber would conduct the electromagnetic radiation. And that stress would make those particles for creating laser beams.
The electron-positron collision might create extremely bright light. And that allows making X-ray lasers, which can be used many times. This would be a great advantage in comparison with the nuclear bombs, what are vaporizing entire laser after one shot.
When we are thinking the military lasers, the high power laser wound not need extreme sharpness, if they want to use to destroy some targets. That means that the power of the flash of the laser is more important than any other things. The short and powerful flash is important when the location of laser want to hide. Use of the acetylene light would allow creating lasers, what is needed very low electricity.
The bright acetylene light would make possible to create a very powerful beam, and if the laser is installed in the fast attack airplane the ram-air can be used for cooling those elements. But if we are thinking about the more powerful laser beams, we might need more powerful flashes, if we want to create the X-ray-laser, what can shoot more than one shoot. Normal X-ray lasers would use small-sized nuclear bombs, what are exploded around the laser element for creating a high-energy beam, which can destroy targets very sharply.
But the problem of those systems is that they are single-use. Using anti-electrons or positrons what would annihilate with electrons around the laser element, would be possible to create the brightest laser beam, what could be even possible to find in nature or the entire universe. That technology would allow creating the X-ray laser, which is capable of many shoots, and that thing is very interesting when we are thinking about modern laser technology.
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