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Entry   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics 
    Reply   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics Focal_length_divergence_method.pdfBeam_Profile_at_high_power_.jpgSBOX_CELIA_AMPLIFIER_Divergence_measurement.pdf
       Reply   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics 20220823_setup.jpg
          Reply   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics Capture.PNGTelescope_AMPLI_CELIA_1.xml
             Reply   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics Ampli_Celia_2.3mrad_divergence_New_Telescope.jpgBeam_waist_at_injection_image.jpg
                Reply   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics 20220905_Telescope_lense_placement.jpg
                   Reply   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics 
       Reply   Telescope / amplifier output, posted by Manar Amer at Optical room about lasers and optics Beam_Profile_Fit_using_gaussian_Beam.jpgBeam_Profile_Fit_using_gaussian_Beam.xml
Message ID: 136     Entry time: Tue Aug 23 17:37:38 2022     In reply to: 134     Reply to this: 137
 Author: Manar Amer 
 Status: Fixed 
 Type: report 
 Category: lasers and optics 
 Location: Optical room 
 Title: Telescope / amplifier output 

I placed a periscope to adjust the high of the beam from the amplifier output from ~ 10 cm from the table to ~ 15 cm

a dichroic mirror placed after it to reject the pump laser, all the mirrors on the path to the cavity were replaced with dielectric mirrors BB01-E03

the length of the path from the amplifier output to the cavity coupling mirror ~ 2 meters

setup defines the different optics placed in the path

Note: the beam goes all the way to the cavity, put it is not yet optimized to the irises.

 

Manar Amer wrote:

Beam divergence was measured using a method called  "Focal Length Divergence Measurement Method"

Where a lens of a known focal length is placed on the beam path and the beam waist is measured at the focal distance using a beam profiler.

We ramped the power up to 10 W

for a focal length = 400 mm,

we measured a FWHM = 2.1 mm,

corresponding to a divergence = 4.45 mrad (edit : wrong software use)

for comparison, we measured the FWHM 8.1 mm  @ 1.55 m and extracted the divergence directly 4.46 mrad  (edit : this measurement is wrong - wrong use of the software) 

Note: better to use a lens of a focal lens higher than 100 mm (to reduce the error in the distance measured)

 

 

 

Manar Amer wrote:

The previous Sbox telescope was dismantled and the mechanical components cleaned.

its lenses are still in the mounts, it looks that two of them are spherical and two are cylindrical

2 are -100 mm and 2 are +150 mm, there is also a box containing fused silica lenses that could be used.

Note: at high power use only fused silica lenses not BK7 type

 

 

 

 

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