Short writing about lasers
What would you do with a laser, what is thinner than a single hair, but has the power of two megawatts? The new thing in lasers is nanotechnology. The laser ray forms in the tube, what is filled with medium, and the light, what comes from sides will make that ray in that tube, what is called as the laser element.
When we are thinking about the use of nanotubes, we could create an extremely small diameter transparent tube, which is filled with a medium like carbon monoxide, and both sides of this thing would put the laser-mirrors, one is fully mirror, and in other mirror is the small hole for creation of the laser ray. That would make possible to make kilometers long lasers, which would have the same diameter as hair.
Those systems must just surround by light sources, and they would make possible to create powerful energy ray to a very small point. Of course, that element can be made by using the red glass, which makes it the rubidium laser. Those ultrathin elements would put in the reel, and when the laser is needed the laser element, what is surrounded by the smallest possible LED lights, and then the system would create extreme powerful ray, what would be targeted to the very small area.
When we are thinking about carbon monoxide lasers and HO (Hydrogen Oxygen) or simpler saying water lasers, those systems would give their burst in two wavelengths. If we would make simple diamond glass, which means the crystal form of carbon or artificial diamond the laser would give only one wavelength of the light.
That thing could increase the power of the laser, and the thing is that normally laser needs the medium, where the light would scatter to both ends of the laser tube. That thing puts the laser light jump between mirrors, and when more light would be brought to the laser ray, it's energy would rise. But what if we would not use medium, and we would simply light the mirrors by using askew lights?
Would it increase the power of the system? Let's say that it would cause the formation of a very powerful light if we would make the light ray jump from mirror to another through a vacuum. In this case, the light would be targeted straight to mirrors, and then it would increase it's power the same way as it travels in the medium. The power of the laser ray would turn very high because the laser element would not be heated the same way, how the tube, what is filled with medium would be heathen.
The temperature is the problem with the lasers. And if the element would overheating it would break laser. But if the light travels in a vacuum, there is no resistant and the temperature would turn lower than with normal lasers. Another version is to make the laser extremely long, where the big size would help to cool the lasers, and also the flowing water, what will flow around laser would keep the temperature low. In aircraft, the flowing air would handle the cooling. of the laser.
What would you do with a laser, what is thinner than a single hair, but has the power of two megawatts? The new thing in lasers is nanotechnology. The laser ray forms in the tube, what is filled with medium, and the light, what comes from sides will make that ray in that tube, what is called as the laser element.
When we are thinking about the use of nanotubes, we could create an extremely small diameter transparent tube, which is filled with a medium like carbon monoxide, and both sides of this thing would put the laser-mirrors, one is fully mirror, and in other mirror is the small hole for creation of the laser ray. That would make possible to make kilometers long lasers, which would have the same diameter as hair.
Those systems must just surround by light sources, and they would make possible to create powerful energy ray to a very small point. Of course, that element can be made by using the red glass, which makes it the rubidium laser. Those ultrathin elements would put in the reel, and when the laser is needed the laser element, what is surrounded by the smallest possible LED lights, and then the system would create extreme powerful ray, what would be targeted to the very small area.
When we are thinking about carbon monoxide lasers and HO (Hydrogen Oxygen) or simpler saying water lasers, those systems would give their burst in two wavelengths. If we would make simple diamond glass, which means the crystal form of carbon or artificial diamond the laser would give only one wavelength of the light.
That thing could increase the power of the laser, and the thing is that normally laser needs the medium, where the light would scatter to both ends of the laser tube. That thing puts the laser light jump between mirrors, and when more light would be brought to the laser ray, it's energy would rise. But what if we would not use medium, and we would simply light the mirrors by using askew lights?
Would it increase the power of the system? Let's say that it would cause the formation of a very powerful light if we would make the light ray jump from mirror to another through a vacuum. In this case, the light would be targeted straight to mirrors, and then it would increase it's power the same way as it travels in the medium. The power of the laser ray would turn very high because the laser element would not be heated the same way, how the tube, what is filled with medium would be heathen.
The temperature is the problem with the lasers. And if the element would overheating it would break laser. But if the light travels in a vacuum, there is no resistant and the temperature would turn lower than with normal lasers. Another version is to make the laser extremely long, where the big size would help to cool the lasers, and also the flowing water, what will flow around laser would keep the temperature low. In aircraft, the flowing air would handle the cooling. of the laser.
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