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The VLT/ERIS grating vector Apodizing Phase Plate coronagraph
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The VLT/ERIS grating vector Apodizing Phase Plate coronagraph
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The VLT/ERIS grating vector Apodizing Phase Plate coronagraph
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Paper
The VLT/ERIS grating vector Apodizing Phase Plate coronagraph
2026
Overview
We describe the design, laboratory manufacture, and on-sky testing of the grating vector apodizing phase plate (gvAPP) coronagraph for the Enhanced Resolution Imager and Spectrograph (ERIS) on the Very Large Telescope. We used both laboratory measurements and on-sky observations to characterise the gvAPP in several different filters, from the K to the L band. In testing, the gvAPP reaches its design specification in the transmission of the optic with 90% in the K bands and 60% in the L band. While the gvAPP reaches its designed raw contrast performance of \\(1 \\times 10^{-5}\\), it does not reach the post-processed contrast of \\(5 \\times 10^{-5}\\) in on-sky observations. Electronic detector noise, due to the Airy core of the coronagraphic point spread function inducing cross-talk between the readout amplifiers, produces a repeated pattern within the coronagraphic regions of the gvAPP. Despite these limitations, we recommend the gvAPP as a tool for characterising substellar companions with known separations and position angles, which allow them to be placed in the coronagraphic dark holes for observations. The ERIS gvAPP's leakage term can also be used as a photometric reference for time series observations; however, we caution that the contrast performance may limit such studies to only the brightest targets. ERIS gvAPP data quality may be improved further with better modelling of detector electronic noise. This work is a pathfinder for Extremely Large Telescope instruments including METIS, which will include gvAPP coronagraphs with improved designs based on these results.
Publisher
Cornell University Library, arXiv.org
