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Microslit nod-shuffle spectroscopy: A technique for achieving very high densities of spectra

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posted on 2024-07-11, 14:48 authored by Karl GlazebrookKarl Glazebrook, Joss Bland-Hawthorn
We describe a new approach to obtaining very high surface densities of optical spectra in astronomical observations with extremely accurate subtraction of night sky emission. The observing technique requires that the telescope is nodded rapidly between targets and adjacent sky positions; object and sky spectra are recorded on adjacent regions of a low-noise CCD through charge shuffling. This permits the use of extremely high densities of small slit apertures (“microslits”) since an extended slit is not required for sky interpolation. The overall multiobject advantage of this technique is as large as 2.9 times that of conventional multislit observing for an instrument configuration which has an underfilled CCD detector and is always greater than 1.5 for high target densities. The “nod-shuffle” technique has been practically implemented at the Anglo-Australian Telescope as the “LDSS++ project” and achieves sky subtraction accuracies as good as 0.04%, with even better performance possible. This is a factor of 10 better than is routinely achieved with long slits. LDSS++ has been used in various observational modes, which we describe, and for a wide variety of astronomical projects. The nod-shuffle approach should be of great benefit to most spectroscopic (e.g., long slit, fiber, integral field) methods and would allow much deeper spectroscopy on very large telescopes (10 m or greater) than is currently possible. Finally, we discuss the prospects of using nod-shuffle to pursue extremely long spectroscopic exposures (many days) and of mimicking nod-shuffle observations with infrared arrays.

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ISSN

0004-6280

Journal title

Publications of the Astronomical Society of the Pacific

Volume

113

Issue

780

Pagination

17 pp

Publisher

University of Chicago Press

Copyright statement

Copyright © 2001 The Astronomical Society of the Pacific. The published version is reproduced in accordance with the copyright policy of the publisher.

Language

eng

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