Dr Fraser Clarke

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

Simulated stellar kinematics studies of high-redshift galaxies with the HARMONI Integral Field Spectrograph

Monthly Notices of the Royal Astronomical Society Oxford University Press 458:3 (2016) 2405-2422

Authors:

S Kendrew, S Zieleniewski, RCW Houghton, Niranjan Thatte, J Devriendt, M Tecza, F Clarke, K O'Brien, B Häussler

Abstract:

We present a study into the capabilities of integrated and spatially resolved integral field spectroscopy of galaxies at z = 2–4 with the future HARMONI spectrograph for the European Extremely Large Telescope (E-ELT) using the simulation pipeline, HSIM. We focus particularly on the instrument's capabilities in stellar absorption line integral field spectroscopy, which will allow us to study the stellar kinematics and stellar population characteristics. Such measurements for star-forming and passive galaxies around the peak star formation era will provide a critical insight into the star formation, quenching and mass assembly history of high-z, and thus present-day galaxies. First, we perform a signal-to-noise study for passive galaxies at a range of stellar masses for z = 2–4, assuming different light profiles; for this population, we estimate that integrated stellar absorption line spectroscopy with HARMONI will be limited to galaxies with M* ≳ 1010.7 M⊙. Secondly, we use HSIM to perform a mock observation of a typical star-forming 1010 M⊙ galaxy at z = 3 generated from the high-resolution cosmological simulation NUTFB. We demonstrate that the input stellar kinematics of the simulated galaxy can be accurately recovered from the integrated spectrum in a 15-h observation, using common analysis tools. Whilst spatially resolved spectroscopy is likely to remain out of reach for this particular galaxy, we estimate HARMONI's performance limits in this regime from our findings. This study demonstrates how instrument simulators such as HSIM can be used to quantify instrument performance and study observational biases on kinematics retrieval; and shows the potential of making observational predictions from cosmological simulation output data.

Simulated stellar kinematics studies of high-redshift galaxies with the HARMONI Integral Field Spectrograph

(2016)

Authors:

S Kendrew, S Zieleniewski, RCW Houghton, N Thatte, J Devriendt, M Tecza, F Clarke, K O'Brien, B Häussler

The Subaru–XMM-Newton Deep Survey (SXDS). VIII. Multi-wavelength identification, optical/NIR spectroscopic properties, and photometric redshifts of X-ray sources†

Publications of the Astronomical Society of Japan Oxford University Press (OUP) 67:5 (2015) 82

Authors:

Masayuki Akiyama, Yoshihiro Ueda, Mike G Watson, Hisanori Furusawa, Tadafumi Takata, Chris Simpson, Tomoki Morokuma, Toru Yamada, Kouji Ohta, Fumihide Iwamuro, Kiyoto Yabe, Naoyuki Tamura, Yuuki Moritani, Naruhisa Takato, Masahiko Kimura, Toshinori Maihara, Gavin Dalton, Ian Lewis, Hanshin Lee, Emma Curtis-Lake, Edward Macaulay, Frazer Clarke, John D Silverman, Scott Croom, Masami Ouchi, Hitoshi Hanami, Jorge Díaz Tello, Tomohiro Yoshikawa, Naofumi Fujishiro, Kazuhiro Sekiguchi

HSIM: a simulation pipeline for the HARMONI integral field spectrograph on the European ELT

Monthly Notices of the Royal Astronomical Society Oxford University Press 453:4 (2015) 3754-3765

Authors:

Simon Zieleniewski, Niranjan Thatte, Sarah Kendrew, Ryan CW Houghton, A Mark Swinbank, Matthias Tecza, Fraser Clarke, Thierry Fusco

Abstract:

We present HSIM: a dedicated pipeline for simulating observations with the HARMONI integral field spectrograph on the European Extremely Large Telescope. HSIM takes high spectral and spatial resolution input data-cubes, encoding physical descriptions of astrophysical sources, and generates mock observed data-cubes. The simulations incorporate detailed models of the sky, telescope and instrument to produce realistic mock data. Further, we employ a new method of incorporating the strongly wavelength dependent adaptive optics point spread functions. HSIM provides a step beyond traditional exposure time calculators and allows us to both predict the feasibility of a given observing programme with HARMONI, as well as perform instrument design trade-offs. In this paper we concentrate on quantitative measures of the feasibility of planned observations. We give a detailed description of HSIM and present two studies: estimates of point source sensitivities along with simulations of star-forming emission-line galaxies at $z\sim 2-3$. We show that HARMONI will provide exquisite resolved spectroscopy of these objects on sub-kpc scales, probing and deriving properties of individual star-forming regions.