Extremely Large Telescope

SDSS-IV MaNGA IFS Galaxy Survey --- Survey Design, Execution, and Initial Data Quality

(2016)

Authors:

Renbin Yan, Kevin Bundy, David R Law, Matthew A Bershady, Brett Andrews, Brian Cherinka, Aleksandar M Diamond-Stanic, Niv Drory, Nicholas MacDonald, José R Sánchez-Gallego, Daniel Thomas, David A Wake, Anne-Marie Weijmans, Kyle B Westfall, Kai Zhang, Alfonso Aragón-Salamanca, Francesco Belfiore, Dmitry Bizyaev, Guillermo A Blanc, Michael R Blanton, Joel Brownstein, Michele Cappellari, Richard D'Souza, Eric Emsellem, Hai Fu, Patrick Gaulme, Mark T Graham, Daniel Goddard, James E Gunn, Paul Harding, Amy Jones, Karen Kinemuchi, Cheng Li, Hongyu Li, Roberto Maiolino, Shude Mao, Claudia Maraston, Karen Masters, Michael R Merrifield, Daniel Oravetz, Kaike Pan, John K Parejko, Sebastian F Sanchez, David Schlegel, Audrey Simmons, Karun Thanjavur, Jeremy Tinker, Christy Tremonti, Remco van den Bosch, Zheng Zheng

Natural guide-star processing for wide-field laser-assisted AO systems

Adaptive Optics Systems V Society of Photo-optical Instrumentation Engineers (2016)

Authors:

Carlos M Correia, Benoit Neichel, Jean-Marc Conan, Cyril Petit, Jean-Francois Sauvage, Thierry Fusco, Joel DR Vernet, Niranjan Thatte

Abstract:

Sky-coverage in laser-assisted AO observations largely depends on the system's capability to guide on the faintest natural guide-stars possible. Here we give an up-to-date status of our natural guide-star processing tailored to the European-ELT's visible and near-infrared (0.47 to 2.45 μm) integral field spectrograph — Harmoni.
We tour the processing of both the isoplanatic and anisoplanatic tilt modes using the spatio-angular approach whereby the wavefront is estimated directly in the pupil plane avoiding a cumbersome explicit layered estimation on the 35-layer profiles we're currently using.
Taking the case of Harmoni, we cover the choice of wave-front sensors, the number and field location of guide-stars, the optimised algorithms to beat down angular anisoplanatism and the performance obtained with different temporal controllers under split high-order/low-order tomography or joint tomography. We consider both atmospheric and far greater telescope wind buffeting disturbances. In addition we provide the sky-coverage estimates thus obtained.

Preparation of AO-related observations and post-processing recipes for E-ELT HARMONI-SCAO

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 9909 (2016) 990978-990978-10

Authors:

Noah Schwartz, Jean-François Sauvage, Carlos Correia, Benoît Neichel, Léonardo Blanco, Thierry Fusco, Arlette Pécontal-Rousset, Aurélien Jarno, Laure Piqueras, Kjetil Dohlen, Kacem El Hadi, Niranjan Thatte, Ian Bryson, Fraser Clarke, Hermine Schnetler

The adaptive optics modes for HARMONI: from Classical to Laser Assisted Tomographic AO

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 9909 (2016) 990909-990909-15

Authors:

B Neichel, T Fusco, J-F Sauvage, C Correia, K Dohlen, K El-Hadi, L Blanco, N Schwartz, F Clarke, NA Thatte, M Tecza, J Paufique, J Vernet, M Le Louarn, P Hammersley, J-L Gach, S Pascale, P Vola, C Petit, J-M Conan, A Carlotti, C Vérinaud, H Schnetler, I Bryson, T Morris, R Myers, E Hugot, AM Gallie, David M Henry

Echidna Mark II: one giant leap for 'tilting spine' fibre positioning technology

Proceedings of SPIE Society of Photo-optical Instrumentation Engineers 9912 (2016) 991221

Authors:

James M Gilbert, Gavin Dalton, Jon Lawrence

Abstract:

The Australian Astronomical Observatory's 'tilting spine' fibre positioning technology has been redeveloped to provide superior performance in a smaller package. The new design offers demonstrated closed-loop positioning errors of <2.8 μm RMS in only five moves (~10 s excluding metrology overheads) and an improved capacity for open-loop tracking during observations. Tilt-induced throughput losses have been halved by lengthening spines while maintaining excellent accuracy. New low-voltage multilayer piezo actuator technology has reduced a spine's peak drive amplitude from ~150V to <10V, simplifying the control electronics design, reducing the system's overall size, and improving modularity. Every spine is now a truly independent unit with a dedicated drive circuit and no restrictions on the timing or direction of fibre motion.