Polarization analysis of GRAVITY and the VLTI

Authors :: Feng Gao
Christian Straubmeier
Nicolas Schuhler
O. Pfuhl
António Amorim
Jinyi Shangguan
M. Bauböck
Paulo J. V. Garcia
Eckhard Sturm
Jason Dexter
Wolfgang Brandner
Sylvestre Lacour
K. Rousselet-Perraut
Stefan Gillessen
Guy Perrin
Sebastiano von Fellenberg
Thomas Ott
Felix Widmann
A. Jiménez-Rosales
Xavier Haubois
Frank Eisenhauer
Odele Straub
Reinhard Genzel
Source :: Optical and Infrared Interferometry and Imaging VII.
Publication Year :: 2020
Publisher :: SPIE, 2020.
Abstract: Instrumental polarization can have large effects on measurements with the VLTI, as it can alter measured polarization and introduce uncertainties. To understand these effects we measured and simulated the instrumental polarization of the VLTI and of GRAVITY. We are able to provide a calibration model for GRAVITY observations and quantify systematic uncertainties due to instrumental polarization. This work has shown to be crucial to measure the polarization of the galactic center black hole Sgr A* where we detect a swing in the polarization angle during flare events. While the analysis was done for GRAVITY, it also gives an important basis for the design of future near-infrared instruments at the VLTI.