GNOMOS: The Gemini NIR-Optical Multi Object Spectrograph
Abstract
This paper is a response to a call for white papers solicited by Gemini Observatory and its Science and Technology Advisory Committee, to help define the science case and requirements for a new Gemini instrument, envisaged to consist of a single-object spectrograph at medium resolution simultaneously covering optical and near-infrared wavelengths. In this white paper we discuss the science case for an alternative new instrument, consisting instead of a multi-object, medium-resolution, high-throughput spectrograph, covering simultaneously the optical and near-infrared slices of the electromagnetic spectrum. We argue that combination of wide wavelength coverage at medium resolution with moderate multiplexing power is an innovative path that will enable the pursuit of fundamental science questions in a variety of astrophysical topics, without compromise of the science goals achievable by single-object spectroscopy on a wide baseline. We present a brief qualitative discussion of the main features of a notional hardware design that could conceivably make such an instrument viable.
Keywords
Cite
@article{arxiv.1203.4229,
title = {GNOMOS: The Gemini NIR-Optical Multi Object Spectrograph},
author = {Ricardo P. Schiavon and Andy Adamson and Kristin Chiboucas and Ruben Diaz and Tom Geballe and German Gimeno and Percy Gomez and Pascale Hibon and Paul Hirst and Inger Jorgensen and Kathleen Labrie and Sandy Leggett and Marie Lemoine-Busserolle and Nancy Levenson and Rachel Mason and Richard McDermid and Bryan Miller and Atsuko Nitta and Peter Pessev and Bernadette Rodgers and Mischa Schirmer and Chad Trujillo and James Turner},
journal= {arXiv preprint arXiv:1203.4229},
year = {2012}
}
Comments
9 pages, no figures. This paper has been withdrawn because it was supposed to be an internal Gemini document