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It'll probably work, just at greatly reduced intensity. But even at 95% loss, most greens will be brighter than a HeNe beam that's only lost 10% through the combiner.
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FrozenGate by Avery
CO2 - red beam combiner
- Thread starter Arayan
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Just a thought..
95% transfer of 10.6uM light.. lets imagine a 20W CO2. What happens, 1W reflected or 1W absorbed? :O
95% transfer of 10.6uM light.. lets imagine a 20W CO2. What happens, 1W reflected or 1W absorbed? :O
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I have a ZnSe combiner like this --- As far as the green, It looks like a 50/50 splitter.
I have never fed my CO2 into this so I don't know the %/% but it might need a small dump area.
HMike
I have never fed my CO2 into this so I don't know the %/% but it might need a small dump area.
HMike
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Thanks guys; Very useful information.
I'm getting a bit curious about translucent and reflective spectral plots for these things, but in that case I suppose I'd better find another supplier than eBay; Beggars can't be choosers ;-)
If green reflection is indeed down to 50%, it defeats the purpose to use a green pilot beam, because I suppose a 50% reflected green beam would be approximately equally visible as a 90% reflected red ream.
I'm getting a bit curious about translucent and reflective spectral plots for these things, but in that case I suppose I'd better find another supplier than eBay; Beggars can't be choosers ;-)
If green reflection is indeed down to 50%, it defeats the purpose to use a green pilot beam, because I suppose a 50% reflected green beam would be approximately equally visible as a 90% reflected red ream.
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@MindBender
If you like to see the beam, I think green is more doable. 50% of 10mW green has a visible beam in night, and plenty bright dot in day.
If you like to see the beam, I think green is more doable. 50% of 10mW green has a visible beam in night, and plenty bright dot in day.
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95% of the aiming beam, sir. This thread is on the aiming beam, and that is what I was commenting on. Pay attention, please.
The aiming beam can not change the main beam in any way, shape, or form. Light doesn't work like that.
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HIMNL9
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Yes, this is exactly the same type of dichros i have ..... it transmit around 97 / 98% of the IR, but still adsorb a very small part of it, and reflect at 45 degrees another small part ..... consider anyway that you are not reflecting the focused spot, so a piece of black anodized aluminium, or also better a heatsinked beamdump, is enough for long usage, where for short usage a simple beam blocker is ok (i used a small heatsink from a chipset, one of these with a lot of "pins" as fins, faced to the reflected beam, and it works very well).
The lens, anyway, become a little bit hot in long usage cycles, so i had to use a mount system that helps in dissipating heat, and that involved a larger plate for the lens, heat-resistant and transfer glue, and a small fan ..... but the assembly is working from years and never had problems, til now, so i suppose that the solution was good enough
