SAZAR said:
Could we coat eye-glasses with multitude of semi-transparent layers spaced to some wavelength we count on so that they increase light to a point that one can see like in broad daylight in very dark conditions.
You can't make energy out of nothing - if it's dark there simply aren't many light photons around. All you can do is detect the small amount of light and generate a larger level (like night vision goggles - but the extra power comes from batteries)
What's the so 'great deal' about laser light?
You can produce a lot of monochromatic light in one place cheaply. The amount is pretty much only limited by how much electrical power you supply.
I read some info about coherence and it's all inconclusive to me.
Why light used for cutting has to be (or it's preferred at least) laser light - why couldn't it be incoherent ordinary light? How much times can laser possibly increase the outgoing light
It doesn't need to be coherent - almost no laser applications (other than physics experiemnts) need coherence.
Remember melting plastic toy soldiers with a magnifying glass and the sun - daylight is not coherent.
The problem is that the amount of power from a thermal source (ie any source of light that isn't a laser - like a light bulb) depends on the size and temperature. You can't just turn up the electricity on a light bulb and get more light.
You can heat the filament more but it will soon melt. You can make the source bigger but then you need larger optics to concentrate the light to a point.
The nice thing about a laser beam is that the light is already pretty concentrated, it is one color so the optics so concentrate it further are simple and if you want more power - just turn up the electricity - or add more lasers together.
I always thought that the point is in increasing the intensity of the light by adding amplitudes to an even greater amplitude, but is it then possible to put more semi-transparent layers to make even greater than greater amplitude? I mean - you can't create something from nothing - you can't gain more energy from light than it gives already - right, you can only concentrate it over time with interference?
Power is the number of photons. Photons with shorter wavelengths have more energy, so for the same number of photons/second a visible laser would have more power than an infrared one and a UV laser even more power.
For engineering reasons - it's easier to make high power gas lasers, most cutting laser are CO2 at 10.6um in the far infrared. The individual photons are very weak compared to visible light but there are a lot of them in a 10Kw laser!
Now with high powered semiconductor diodes it is possible to make cutting lasers that use visible light.
For cutting applications the photons don't have to be in pahse or coherent it is purely an energy->heat material-> material evaporates process.
