Table of Contents

TAO (Themis Adaptive Optics) 1st light

TAO stands for THEMIS Adaptive Optics. It is made of a classical solar AO hardware currently running at 1 kHz and combining a Shack-Hartmann wavefront sensor with 76 subapertures (10×10 geometry) and a deformable mirror DM97 from ALPAO with 97 actuators. See TAO system description for more technical details. It was implemented by the Themis team (IRL-FSLAC), after integration at CRAL (CNRS/UMR 5574). Innovative algorithms are used for solar wavefront sensing and the control loop, based on an end-to-end inverse approach and a minimum variance estimator. Commands are computed iteratively, without any matrix inversion, using a method developped for Extremely Large Telescopes.

On Dec 8th, 2020 TAO started running in closed-loop over the solar granulation and the existing sunspot at that moment (NOAA 12790). We present here some preliminary and extremely encouraging results, while the closed-loop algorithm is not yet fully implemented.

TAO Dec 8th, 2020: First light !!!

                                              

TAO Dec 10th, 2020: NOAA 12790

                                              

Robustness and stability

          
                      (click to play video         NB: AO is off for a few seconds at the beginning and at the end)

AO and solar granulation contrast

A very simple tool to quantify the benefit of the AO is to look at solar granulation contrast. A classic proxy of the contrast of solar granulation, indicative of the image quality, is the relative standard deviation of the intensity $ 𝑠𝑡𝑑(𝐼) / <𝐼>$ .

                       

  • 12/17 14:52: AO off

  • 12/17 14:54 AO on (bad seeing)

  • 12/17 14:55 AO on (better seeing)

(Please allow time for videos to autoplay)

Some numbers

  • AO off (seeing “daytime bad”)
  • $𝑟_0$ ≈ 3 – 4 cm
  • Granulation contrast: 1.65%

A

  • AO on (seeing “daytime bad”)
  • $𝑟_0$ ≈ 3 – 4 cm
  • Granulation contrast: 4.2%

B

  • AO on (seeing “daytime bad”)
  • Knox-Thompson reconstruction (100 frames)
  • Granulation contrast: 9.6 %

C

Credits

TAO is:
IRL FSLAC: Gelly B., Douet R., Laforgue D. (Themis), and Le Men C. (now at CNRS LISB)
CRAL: Thiébaut E., Tallon M., Langlois M., Tallon-Bosc I. (Harissa), Moretto G. (Pôle Instrumentation)

                    https://solarnet-project.eu/           http://cral.univ-lyon1.fr/          http://ashra.oca.eu/

BG, MT, ET, ITB, RD 2020/12/16 10:40