Following the Helium Neon Alignment + change in the distance between the mirrors to be; M3-M4 = 90.5 mm , M1-M2 = 80.2 mm  -→ The alignment using the Koheras CW laser is done.

• Additional components used:
  • for monitoring beam :  Photodiode (power of beam), Beam Profiler (shape, position, power , ... ) 
  • for Koheras frequency scan: function generator, Amplifier or use lase-lock (had some issues to be checked)
  • Telescope: made using 1 m focal length to match the beam shape of the cavity
• Observed during:
  • The alignment is fairly similar to the previous one, placed two irises to preserve it.
  • Fundamental mode observed (beam profiler after M2) was circular
  • when the frequency scan was fine-tuned around the fundamental mode we could see the mode pulsing in the cavity, but there was a bit of instability.
  • when doing a very wide frequency scan (50 V ~ 1.5 GHz), multiple modes where showing inside the cavity

Photos attached show:

• some resonating modes in the cavity 
• Fundamental mode resonating in the cavity, with its properties (2D shape, 1D shape, position) ** The picture is taken after subtracting the background **
  • from 2D it is very circular
  • from 1D it is confirmed to be circular (715.00 um - 704.00 um)
  • From position, we have a reference to compare with tomorrow morning.
• Diffraction that can be observed in the cavity (you can clearly see the edges of the mirrors in the photo)
• The temperature curve is attached for the duration of the exp. (before starting Ronic switched something off and then put it on !!!!!! it seems to be for temp regulation )

** Notes for tomorrow morning :  first : switch on the laser and check if the beam 00 mode is still observed and check its position

this is to see the stability and the effect of the temperature.