The Infrared Imaging Spectrograph (IRIS) for TMT: advancing the data   reduction system

Gregory L. Walth (1); Shelley A. Wright (1,2); Nils-Erik Rundquist; (1,2); David Andersen (3); Edward Chapin (3); Eric Chisholm (4); Tuan Do (5),; Jennifer Dunn (3); Brent Ellerbroek (4); Kim Gillies (4); Yutaka Hayano (6),; Chris Johnson (5); James Larkin (5); Takashi Nakamoto (6); Reed Riddle (7),; Luc Simard (3); Roger Smith (7); Ryuji Suzuki (6); Ji Man Sohn (5); Robert; Weber (7); Jason Weissd; Kai Zhang (8) ((1) Center for Astrophysics & Space; Sciences; University of California San Diego; CA; USA; (2) Department of; Physics; University of California San Diego; CA; USA; (3) National Research; Council of Canada - Herzberg; Victoria; BC; Canada; (4) Thirty Meter; Telescope Observatory Corporation; Pasadena; CA; USA; (5) Physics & Astronomy; Department; University of California Los Angeles; CA; USA; (6) National; Astronomical Observatory of Japan; Osawa; Mitaka; Tokyo; Japan; (7) Caltech; Optical Observatories; Pasadena; CA; USA; (8) National Astronomical; Observatories / Nanjing Institute of Astronomical Optics & Technology,; Chinese Academy of Sciences; Nanjing; China)

arXiv:1808.07495·astro-ph.IM·August 24, 2018

The Infrared Imaging Spectrograph (IRIS) for TMT: advancing the data reduction system

Gregory L. Walth (1), Shelley A. Wright (1,2), Nils-Erik Rundquist, (1,2), David Andersen (3), Edward Chapin (3), Eric Chisholm (4), Tuan Do (5),, Jennifer Dunn (3), Brent Ellerbroek (4), Kim Gillies (4), Yutaka Hayano (6),, Chris Johnson (5), James Larkin (5)

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TL;DR

The paper describes the updated data reduction system for IRIS, an advanced infrared spectrograph for TMT, focusing on real-time and post-processing capabilities to handle complex data modes and improve data quality.

Contribution

It presents the new design of IRIS's data reduction system supporting multiple data modes and sophisticated processing features for the TMT's infrared spectrograph.

Findings

01

Supports real-time and post-processing data reduction

02

Enables removal of poor seeing readouts to enhance SNR

03

Incorporates sub-array and guide window techniques for saturation mitigation

Abstract

Infrared Imaging Spectrograph (IRIS) is the first light instrument for the Thirty Meter Telescope (TMT) that consists of a near-infrared (0.84 to 2.4 micron) imager and integral field spectrograph (IFS) which operates at the diffraction-limit utilizing the Narrow-Field Infrared Adaptive Optics System (NFIRAOS). The imager will have a 34 arcsec x 34 arcsec field of view with 4 milliarcsecond (mas) pixels. The IFS consists of a lenslet array and slicer, enabling four plate scales from 4 mas to 50 mas, multiple gratings and filters, which in turn will operate hundreds of individual modes. IRIS, operating in concert with NFIRAOS will pose many challenges for the data reduction system (DRS). Here we present the updated design of the real-time and post-processing DRS. The DRS will support two modes of operation of IRIS: (1) writing the raw readouts sent from the detectors and performing the…

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