Modeling the vortex center glow in the ELT/METIS vortex coronagraph

Abstract: The Mid-infrared ELT Imager and Spectrograph (METIS) is among the first three scientific instruments commissioned at the ELT. It will implement vortex coronagraphy to achieve high-contrast imaging (HCI) at small angular separations from bright, nearby stars. An important unresolved problem with vortex coronagraphy is the vortex center glow (VCG) effect, where the thermal emission from the warm environment around the entrance pupil is partially diffracted into the image of the pupil by the vortex phase mask (VP… Show more

“…The excellent optical performance of the METIS AO system (section 4.2) enables efficient coronagraphy and high contrast imaging [33], [34]. Since the theoretical contrast curves are generally quite optimistic for the real environment at the telescope, we have included several likely perturbations in our simulations, such as pupil drift, Talbot effect, residual non common path aberrations (NCPA) and the effect of a cluster of 7 slightly misaligned ELT M1 segments.…”

Status update on the development of METIS, the mid-infrared ELT imager and spectrograph

“…The excellent optical performance of the METIS AO system (section 4.2) enables efficient coronagraphy and high contrast imaging [33], [34]. Since the theoretical contrast curves are generally quite optimistic for the real environment at the telescope, we have included several likely perturbations in our simulations, such as pupil drift, Talbot effect, residual non common path aberrations (NCPA) and the effect of a cluster of 7 slightly misaligned ELT M1 segments.…”

Status update on the development of METIS, the mid-infrared ELT imager and spectrograph