# Is the sky the limit? Performance of the revamped Swedish 1-m Solar   Telescope and its blue- and red-beam re-imaging systems

**Authors:** Goran Scharmer, Mats Lofdahl, Guus Sliepen, Jaime de la Cruz Rodriguez

arXiv: 1905.05588 · 2019-06-12

## TL;DR

This paper evaluates the performance of the revamped Swedish 1-m Solar Telescope, demonstrating how adaptive optics and post-processing improve solar image contrast and analyzing the telescope's optical performance across multiple wavelengths.

## Contribution

It provides detailed measurements of the SST's imaging contrast and optical performance after recent upgrades, linking wavefront correction to contrast improvements.

## Key findings

- Contrast correlates with Strehl ratio and wavefront error.
- SST achieves high contrast comparable to other telescopes.
- Optical upgrades significantly enhance solar imaging quality.

## Abstract

We demonstrate that for data recorded with a solar telescope that uses adaptive optics and/or post-processing to compensate for many low- and high-order aberrations, the RMS granulation contrast is directly proportional to the Strehl ratio calculated from the residual (small-scale) wavefront error. We demonstrate that the wings of the high-order compensated PSF for SST are likely to extend to a radius of not more than about 2 arcsec, consistent with earlier conclusions drawn from straylight compensation of sunspot images. We report on simultaneous measurements of seeing and solar granulation contrast averaged over 2 sec time intervals at several wavelengths from 525 nm to 853.6 nm on the red-beam (CRISP beam) and wavelengths from 395 nm to 484 nm on the blue-beam (CHROMIS beam). These data were recorded with the Swedish 1-m Solar Telescope (SST) that has been revamped with an 85-electrode adaptive mirror and a new tip-tilt mirror, both of which were polished to exceptionally high optical quality. The highest 2-sec average image contrast measured in April 2015 through 0.3-0.9 nm interference filters at 525 nm, 557 nm, 630 nm and 853.5 nm with compensation only for the diffraction limited point spread function of SST is 11.8%, 11.8%, 10.2% and 7.2% respectively. Similarly, the highest 2-sec contrast measured at 395 nm, 400 nm and 484 nm in May 2016 through 0.37-1.3 nm filters is 16%, 16% and 12.5% respectively. The granulation contrast observed with SST compares favorably with that of other telescopes. Simultaneously with the above wideband red-beam data, we also recorded narrow-band continuum images with the CRISP imaging spectropolarimeter. We find that contrasts measured with CRISP are entirely consistent with the corresponding wide-band contrasts, demonstrating that any additional image degradation by the CRISP etalons and telecentric optical system is marginal or even insignificant.

## Full text

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## Figures

59 figures with captions in the complete paper: https://tomesphere.com/paper/1905.05588/full.md

## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1905.05588/full.md

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Source: https://tomesphere.com/paper/1905.05588