Point spread function reconstruction validated using on-sky CANARY data in multiobject adaptive optics mode

Olivier A Martin,Tim J Morris,Carlos M Correia,Eric Gendron,Damien Gratadour,Fabrice Vidal,Benoit Neichel,Thierry Fusco,Gerard Rousset,Alastair G Basden,Richard M Myers

doi:10.1117/1.jatis.2.4.048001

Abstract

In preparation of future multiobject spectrographs (MOS) whose one of the major role is to provide an extensive statistical studies of high redshifted galaxies surveyed, the demonstrator CANARY has been designed to tackle technical challenges related to open-loop adaptive optics (AO) control with jointed Natural Guide Star and Laser Guide Star tomography. We have developed a point spread function (PSF) reconstruction algorithm dedicated to multiobject adaptive optics systems using system telemetry to estimate the PSF potentially anywhere in the observed field, a prerequisite to postprocess AO-corrected observations in integral field spectroscopy. We show how to handle off-axis data to estimate the PSF using atmospheric tomography and compare it to a classical approach that uses on-axis residual phase from a truth sensor observing a natural bright source. We have reconstructed over 450 on-sky CANARY PSFs and we get bias/1-σ standard-deviation (std) of 1.3/4.8 on the H-band Strehl ratio (SR) with 92.3% of correlation between reconstructed and sky SR. On the full-width at half-maximum, we get, respectively, 2.94 mas, 19.9 mas, and 88.3% for the bias, std, and correlation. The reference method achieves 0.4/3.5/95% on the SR and 2.71 mas/14.9 mas/92.5% on the FWHM for the bias/std/correlation.

Highlights

For studies of formation and evolution of early galaxies, multiplexed observations of several objects need be carried out at once using integral field spectrographs over a large Field-of-View (FoV)
Such a design has been proposed for Eagle [2], the first multi-object Integral Field Units (IFU) proposed for the European-Extremely Large Telescope (E-ELT) [3], with a large FoV of 5 to 10 arc-minutes required for science observations [4]
We have laid out a Point Spread Function (PSF)-R algorithm tailored to open-loop, tomographic Multi-object adaptive optics (MOAO) systems and compared it to a reference method using the Truth-Sensor and to on-sky metrics (SR, Full Width at Half Maximum (FWHM), EE) obtained directly from the science detector

Summary

Introduction

For studies of formation and evolution of early galaxies, multiplexed observations of several objects need be carried out at once using integral field spectrographs over a large Field-of-View (FoV). The development of Mosaic will include a High-Multiplex Mode (HMM), seeing-limited or coarsely-sampled using the Ground Layer Adaptive Optics (GLAO) available on the E-ELT using the M4 [6] pre-focal adaptive mirror, for observing from 100 to 250 objects. It will include a High-Definition Mode (HDM) for observing from 10 to 20 faint galaxies with MOAO-corrected IFUs

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Methods

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Conclusion