Litcius/Paper detail

Measuring the cophasing state of a segmented mirror with a wavelength sweep and a Zernike phase contrast sensor

Anne-Laure Cheffot, Arthur Vigan, Samuel Leveque, Emmanuel Hugot

2020Optics Express20 citationsDOIOpen Access PDF

Abstract

The demand for higher resolution telescopes leads to segmented primary mirrors that need to be phased for operation. A phasing sensor applying a wavelength sweep technique provides a large capture range without modulating the position of individual mirror segments. This technique offers the potential to monitor the phasing state of a segmented telescope in parallel to the science observations. We evaluate the performance of the wavelength sweep technique using a Zernike phase contrast sensor for coarse phasing. Test results on a dedicated bench show 112 nm rms precision. With the help of a simulation, we explain a known error of the method and we suggest ways for improvements.

Topics & Concepts

Zernike polynomialsOpticsWavelengthTelescopeDeformable mirrorPhysicsAdaptive opticsPhase (matter)Position (finance)Primary mirrorPhaserWavefrontPtychographyPosition sensorMaterials sciencePhase retrievalRange (aeronautics)Image resolutionWavefront sensorOptical telescopeInterferometryResolution (logic)Phase modulationContrast (vision)Sweep frequency response analysisUltrashort pulseAdaptive optics and wavefront sensingOptical Polarization and EllipsometryAdvanced optical system design