Smartphone screens as astrometric calibrators

Geometric optical distortion is a significant contributor to the astrometric error budget in large telescopes using adaptive optics. To increase astrometric precision, optical distortion calibration is necessary. Modern distortion calibration systems use back-illuminated pinhole masks to image a regular grid of point sources through a system's optics. The optical distortion of the instrument is then calibrated to an astrometric precision limited by the source placement error on the mask. Because of this, pinhole masks require an extreme level of precision, making their manufacture challenging and expensive. Additionally, they must be designed for a particular system, rendering them incompatible between instruments. We investigate using smartphone OLED screens as astrometric calibrators. Smartphones are low cost, have stable illumination, and can be quickly reconfigured to probe different spatial frequencies in the optical system. In this work, we characterize the astrometric accuracy of a Samsung S20 smartphone, with a view towards providing large format, flexible astrometric calibrators for the next generation of astronomical instruments. Investigating the placement error of 826 green OLED pixels, the non-linear deviations are measured to be 189 nm +/- 15 nm RMS. At this level of error, milli-arcsecond astrometric accuracy can be obtained on modern astronomical instruments.