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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: 141     Entry time: Fri Sep 2 17:50:21 2022     In reply to: 134
 Author: Manar Amer 
 Status: Fixed 
 Type: report 
 Category: lasers and optics 
 Location: Optical room 
 Title: Telescope / amplifier output 

removing the reading which is not correct (wrong use of software)

redone a reading similar using a lens of focal 250 mm got a FWHM-X = 0.64 mm , FWHM-Y = 0.84 mm

using the vertical to calculate the divergence, we get divergence ~ 2.17 mrad which is closer to fit obtained for the beam profile by taking data points along the path

attached is also the amplifier beam data taken at different points and their fit using Gaussian beam software

for a focal length = 400 mm,

we measured a FWHM = 2.1 mm,

corresponding to a divergence = 4.45 mrad

 

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

 

 

 

 

Attachment 1: Beam_Profile_Fit_using_gaussian_Beam.jpg  182 kB  | Hide | Hide all | Show all
Beam_Profile_Fit_using_gaussian_Beam.jpg
Attachment 2: Beam_Profile_Fit_using_gaussian_Beam.xml  4 kB  | Show | Hide all | Show all
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