- Joined
- Aug 25, 2010
- Messages
- 533
- Points
- 63
About 5 months ago I have commissioned to my hero CDBEAM 777 a very special beautiful build, the "Blue Balista" laser.
It uses NUBM07E diode, a lot of customs components and the corrective optics.
This is the awesome 5.3W build with corrective optics:
.. and the marvellous collimated beam (together a similar 520nm build):
(full resolution here: https://www.flickr.com/photos/27318590@N08/26513672832/)
The beam was so well collimated to the infinity that also without a beam expander I can hit the clouds with small spot! :drool:
The problems.
---------------
The Linos Beam Expander and other expanders needs precise specs for the input beam.
For example, Hercules use DPSS tecnology, the beam is near tem00, it has a small diameter and it has low divergence, so absolutely no problems
to use it with any beam expander.
In the world of multimode diode the music is somewhat different: slow/fast axis, high divergence and high powered beam can create big issues.
The Blue Balista laser was perfectly collimated to the infinity, but the beam at the aperture was not suitable for the Linos beam expander.
In my precedent high powered 450nm build I was able to collimate the dead focus ad about 7 cm from the aperture because I had the G2 lens easily
accessible.
The correct regulation of the input beam is needed because the beam need to enter into the first small lens not focused to avoid to burn the lens coating.
The dead focus is so created inside the Linos BE, between the first and the second lens; in that way I will save the coating and obtain a
decent GAP between the min and the max focus regulation (I will have a dead focus at about 50 cm from the Linos BE aperture, and a focus to
the infinity when I rotate both the focus mechanisms at about 50% of the entire thread).
Also, in no condition the beam inside the Linos exceed the diameter of the lens, so I will not have any loss of power.
Unluckly the coating of my partucular brand new expensive Linos BE had a coating of 355nm. This coating was strong enough to bear a not-collimated
450nm beam from my precedent build, but its damage threshold was not enough high for my 465nm, 5.3W collimated beam build.
The beam was too strong and too much collimated, and the power dissipated by the not ideal coating exceeded the damage threshold of the coating
itself, so I have almost instantly destroyed the coating (a lot of smoke inside the Linos BE !!) :banghead::banghead:
The internal G2 lens cannot be rotated for two important facts:
1) It is difficult to remove the acrylic canopy without scratch it;
2) I will lose the perfect collimation and the beam quality.
So now I'm facing two big problems:
1) To found a company that can decoat and recoat my damaged lenses with the right coating;
2) To found a particular lens to put just inside the beam aperture, before the beam expander, to obtain a focus at about 7cm from the aperture.
Since the build has a deep hole inside the aluminum barrell, I can create a cylindrical lens holder with the outside diameter suitable for the hole,
and the inside diameter suitable for the lens.
So I can glue the lens inside the holder, and then I can move the custom lens holder along the entire barrell hole to change the focus point.
When I have found the correct focus point I can glue also the holder with a little drop of thermal compound to keep the holder in place forever.
At this point I ask to the expert guys of LPF what kind of lens I can use for my purpose. I already tried with a extra G2 lens, but it create a dead
focus at only 1 mm from the surface !!
I need a lens that create a focus at a certain distance. I can have much play with my custom lens holder in and out, so I can found easily the right
focus position.
It uses NUBM07E diode, a lot of customs components and the corrective optics.
This is the awesome 5.3W build with corrective optics:
.. and the marvellous collimated beam (together a similar 520nm build):
(full resolution here: https://www.flickr.com/photos/27318590@N08/26513672832/)
The beam was so well collimated to the infinity that also without a beam expander I can hit the clouds with small spot! :drool:
The problems.
---------------
The Linos Beam Expander and other expanders needs precise specs for the input beam.
For example, Hercules use DPSS tecnology, the beam is near tem00, it has a small diameter and it has low divergence, so absolutely no problems
to use it with any beam expander.
In the world of multimode diode the music is somewhat different: slow/fast axis, high divergence and high powered beam can create big issues.
The Blue Balista laser was perfectly collimated to the infinity, but the beam at the aperture was not suitable for the Linos beam expander.
In my precedent high powered 450nm build I was able to collimate the dead focus ad about 7 cm from the aperture because I had the G2 lens easily
accessible.
The correct regulation of the input beam is needed because the beam need to enter into the first small lens not focused to avoid to burn the lens coating.
The dead focus is so created inside the Linos BE, between the first and the second lens; in that way I will save the coating and obtain a
decent GAP between the min and the max focus regulation (I will have a dead focus at about 50 cm from the Linos BE aperture, and a focus to
the infinity when I rotate both the focus mechanisms at about 50% of the entire thread).
Also, in no condition the beam inside the Linos exceed the diameter of the lens, so I will not have any loss of power.
Unluckly the coating of my partucular brand new expensive Linos BE had a coating of 355nm. This coating was strong enough to bear a not-collimated
450nm beam from my precedent build, but its damage threshold was not enough high for my 465nm, 5.3W collimated beam build.
The beam was too strong and too much collimated, and the power dissipated by the not ideal coating exceeded the damage threshold of the coating
itself, so I have almost instantly destroyed the coating (a lot of smoke inside the Linos BE !!) :banghead::banghead:
The internal G2 lens cannot be rotated for two important facts:
1) It is difficult to remove the acrylic canopy without scratch it;
2) I will lose the perfect collimation and the beam quality.
So now I'm facing two big problems:
1) To found a company that can decoat and recoat my damaged lenses with the right coating;
2) To found a particular lens to put just inside the beam aperture, before the beam expander, to obtain a focus at about 7cm from the aperture.
Since the build has a deep hole inside the aluminum barrell, I can create a cylindrical lens holder with the outside diameter suitable for the hole,
and the inside diameter suitable for the lens.
So I can glue the lens inside the holder, and then I can move the custom lens holder along the entire barrell hole to change the focus point.
When I have found the correct focus point I can glue also the holder with a little drop of thermal compound to keep the holder in place forever.
At this point I ask to the expert guys of LPF what kind of lens I can use for my purpose. I already tried with a extra G2 lens, but it create a dead
focus at only 1 mm from the surface !!
I need a lens that create a focus at a certain distance. I can have much play with my custom lens holder in and out, so I can found easily the right
focus position.
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