All beams looks more or less like this:
File:GaussianBeamWaist.svg - Wikipedia, the free encyclopedia
(from
Gaussian beam - Wikipedia, the free encyclopedia)
There are two main types of focus:
1) You can focus the laser to infinity (beam is parallel at aperture) .. the beam will then slowly expand, and the dot will be always bigger then aperture. In this case, the aperture is at waist of the beam. With this setup you get smallest divergence angle - and thus smallest dot at large distance.
2) You focus closer. The beam will CONVERGE at aperture .. there will be some distance, at which the dot is smallest (waist of the beam), then the dot will get bigger again. With this you get steeper divergence angle (thus big dot at large distance) .. but the dot in the focus point will be smaller.
In both cases, the limits are defined by wavelength (shorter is better) and aperture size (bigger is better).
You could use 405nm laser for better focus .. but it would not be even twice as good as red, and even less then green .. and it is much less visible .. so it is not really a good choice.
Then you must enlarge the aperture. Some pointers come with beam expanders, which do just that.
Or you can do one yourself. Generally you use concave lens to make the beam highly divergent, thus increase diameter fast, then you use large diameter concave lens to switch the beam back into convergent or collimated. To get rid of the spherical aberration, which would ruin the dot, the concave lens should be plano-concave and the the convex lens should be two plano-convex lens .. with planar side toward more divergent part of the beam. In other words .. it's pretty tricky stuff.
Diode lasers are a bit simpler, since they come with rather divergent beam from the start .. you don't need the concave element.
Also for the convex element, you could use existing lens system with similar task .. namely photographic lens. If you could land your hands on some old mirror telephoto lens with 4 inch aperture .. and feed it with red laser .. that should work just fine.
But any photographic lens would give you a lot larger aperture then common pointers.
