Adaptive optics program update at TMT

Creators: Boyer, C.; Ellerbroek, B.

Others:: Marchetti, Enrico; Close, Laird M.; Véran, Jean-Pierre

Abstract

The TMT first light AO facility consists of the Narrow Field Infra-Red AO System (NFIRAOS), the associated Laser Guide Star Facility (LGSF) and the AO Executive Software (AOESW). Design, fabrication and prototyping activities of the TMT first light AO systems and their components have significantly ramped up in Canada, China, France, and in the US. NFIRAOS is an order 60 x 60 laser guide star (LGS) multi-conjugate AO (MCAO) system, which provides uniform, diffraction-limited performance in the J, H, and K bands over 34 x 34 arc sec fields with 50 per cent sky coverage at the galactic pole, as required to support the TMT science cases. NFIRAOS includes two deformable mirrors, six laser guide star wavefront sensors, one high order Pyramid WFS for natural guide star AO, and up to three low-order, IR, natural guide star on-instrument wavefront sensors (OIWFS) and four on-detector guide windows (ODGW) within each client instrument. The first light LGSF system includes six sodium lasers to generate the NFIRAOS laser guide stars. In this paper, we will provide an update on the progress in designing, prototyping, fabricating and modeling the TMT first light AO systems and their AO components over the last two years. TMT is continuing with detailed AO modeling to support the design and development of the first light AO systems and components. Major modeling topics studied during the last two years include further studies in the area of pyramid wavefront sensing, high precision astrometry, PSF reconstruction for LGS MCAO, LGSF wavefront error budget and sophisticated low order mode temporal filtering.

Additional Information

© 2016 Society of Photo-Optical Instrumentation Engineers (SPIE). This paper is a summary of the contributions of numerous TMT staff members, TMT partners and TMT suppliers including: Luc Gilles, Angel Otárola, Tony Travouillon, Melissa Trubey, Lianqi Wang (TMT AO Group), Sean Adkins (Consultant), Hugh Thompson, Gelys Trancho (TMT), David R. Andersen, Jenny Atwood, Peter Byrnes, Kris Caputa, Jennifer Dunn, Joeleff Fitzsimmons, Glen Herriot, Alexis Hill, Dan Kerley, Malcolm Smith, Jean-Pierre Véran (NRC-Herzberg), Kai Wei, Muwen Fan, Changchun Jiang, Min Li, Xiqi Li, Daoman Riu, Jinlong Tang, (IOE), Terry Bruno, Jeff Cavaco, Audrey Brooks (AOA Xinetics), Hubert Pagès, Jean-Christophe Sinquin, Aurelien Moreau, Gabrielle Dutey, Stephane Vaillant (CILAS), Bob Leach (ARC), Kyle Laudner (Quartus), Mark Fraser (M3 Engineering), James Gregory, Bradley Felton, Kevin Ryu, Michael Brattain, Daniel O'Mara (MIT/LL), Bo Yong, Junwei Zuo (TIPC). The TMT Project gratefully acknowledges the support of the TMT collaborating institutions. They are the Association of Canadian Universities for Research in Astronomy (ACURA), the California Institute of Technology, the University of California, the National Astronomical Observatory of Japan, the National Astronomical Observatories of China and their consortium partners, and the Department of Science and Technology of India and their supported institutes. This work was supported as well by the Gordon and Betty Moore Foundation, the Canada Foundation for Innovation, the Ontario Ministry of Research and Innovation, the National Research Council of Canada, the Natural Sciences and Engineering Research Council of Canada, the British Columbia Knowledge Development Fund, the Association of Universities for Research in Astronomy (AURA), the U.S. National Science Foundation, and the National Institutes of Natural Sciences of Japan.

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