TY - GEN
T1 - High-precision astrometry towards ELTs
AU - Massari, Davide
AU - Fiorentino, Giuliana
AU - Tolstoy, Eline
AU - McConnachie, Alan
AU - Stuik, Remko
AU - Schreiber, Laura
AU - Andersen, David
AU - Clénet, Yann
AU - Davies, Richard
AU - Gratadour, Damien
AU - Kuijken, Konrad
AU - Navarro, Ramon
AU - Pott, Jörg-Uwe
AU - Rodeghiero, Gabriele
AU - Turri, Paolo
AU - Verdoes Kleijn, Gijs
N1 - M1 - Conference Proceedings
PY - 2016
Y1 - 2016
N2 - With the aim of paving the road for future accurate astrometry with MICADO at the European-ELT, we performed an astrometric study using two different but complementary approaches to investigate two critical components that contribute to the total astrometric accuracy. First, we tested the predicted improvement in the astrometric measurements with the use of an atmospheric dispersion corrector (ADC) by simulating realistic images of a crowded Galactic globular cluster. We found that the positional measurement accuracy should be improved by up to 2 mas with the ADC, making this component fundamental for high-precision astrometry. Second, we analysed observations of a globular cluster taken with the only currently available Multi-Conjugate Adaptive Optics assisted camera, GeMS/GSAOI at Gemini South. Making use of previously measured proper motions of stars in the field of view, we were able to model the distortions affecting the stellar positions. We found that they can be as large as 200 mas, and that our best model corrects them to an accuracy of 1 mas. We conclude that future astrometric studies with MICADO requires both an ADC and an accurate modelling of distortions to the field of view, either through an a-priori calibration or an a-posteriori correction.
AB - With the aim of paving the road for future accurate astrometry with MICADO at the European-ELT, we performed an astrometric study using two different but complementary approaches to investigate two critical components that contribute to the total astrometric accuracy. First, we tested the predicted improvement in the astrometric measurements with the use of an atmospheric dispersion corrector (ADC) by simulating realistic images of a crowded Galactic globular cluster. We found that the positional measurement accuracy should be improved by up to 2 mas with the ADC, making this component fundamental for high-precision astrometry. Second, we analysed observations of a globular cluster taken with the only currently available Multi-Conjugate Adaptive Optics assisted camera, GeMS/GSAOI at Gemini South. Making use of previously measured proper motions of stars in the field of view, we were able to model the distortions affecting the stellar positions. We found that they can be as large as 200 mas, and that our best model corrects them to an accuracy of 1 mas. We conclude that future astrometric studies with MICADO requires both an ADC and an accurate modelling of distortions to the field of view, either through an a-priori calibration or an a-posteriori correction.
U2 - 10.1117/12.2232478
DO - 10.1117/12.2232478
M3 - Conference contribution
SN - 9781510601970
BT - Proc. SPIE 9909, Adaptive Optics Systems V, 99091G
PB - SPIE
ER -