Direct imaging of exoplanets represents a challenge for astronomical instrumentation due to the high-contrast ratio and small angular separation between the host star and the faint planet. Multi-star systems pose additional challenges for coronagraphic instruments due to the diffraction and aberration leakage caused by companion stars. Consequently, many scientifically valuable multi-star systems are excluded from direct imaging target lists for exoplanet surveys and characterization missions. Multi-star wavefront control (MSWC) is a technique that uses a coronagraphic instrument's deformable mirror (DM) to create high-contrast regions in the focal plane in the presence of multiple stars. Our previous paper introduced the Super-Nyquist Wavefront Control (SNWC) technique that uses a diffraction grating to enable the DM to generate high-contrast regions beyond the nominal region correctable by the DM. These two techniques can be combined to generate high-contrast regions for multi-star systems at any angular separation. As a case study, a high-contrast wavefront control (WC) simulation that applies these techniques shows that the habitable region of the Alpha Centauri system can be imaged reaching at least 8×10−9 mean contrast in 10\% broadband light in one-sided dark holes from 1.6-5.5λ/D.
@article{arxiv.1704.05441,
title = {Techniques for High-Contrast Imaging in Multi-Star Systems II: Multi-Star Wavefront Control},
author = {Dan Sirbu and Sandrine Thomas and Ruslan Belikov and Eduardo Bendek},
journal= {arXiv preprint arXiv:1704.05441},
year = {2017}
}
Comments
17 pages, 8 figures, 4 tables; Submitted to ApJ; updated Table 1 and author information