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MEGARA, the new intermediate-resolution optical IFU and MOS for GTC: getting ready for the telescope

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Gil de Paz, Armando and Gallego Maestro, Jesús and Cardiel López, Nicolás and Castillo Morales, África and Cruz García, Jesús Manuel de la and Esteban San Román, Segundo and López Orozco, José Antonio and Pascual, S. and Picazo, P. and Sánchez-Penim, A. and Zamorano Calvo, Jaime and Pérez González, Pablo Guillermo and otros, ... (2016) MEGARA, the new intermediate-resolution optical IFU and MOS for GTC: getting ready for the telescope. Proceedings of SPIE, 9908 . ISSN 0277-786X

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Official URL: http://dx.doi.org/10.1117/12.2231988




Abstract

MEGARA (Multi-Espectrografo en GTC de Alta Resolucion para Astronomia) is an optical Integral-Field Unit (IFU) and Multi-Object Spectrograph (MOS) designed for the GTC 10.4m telescope in La Palma that is being built by a Consortium led by UCM (Spain) that also includes INAOE (Mexico), IAA-CSIC (Spain), and UPM (Spain). The instrument is currently finishing AIV and will be sent to GTC on November 2016 for its on-sky commissioning on April 2017. The MEGARA IFU fiber bundle (LCB) covers 12.5x11.3 arcsec(2) with a spaxel size of 0.62 arcsec while the MEGARA MOS mode allows observing up to 92 objects in a region of 3.5x3.5 arcmin(2) around the IFU. The IFU and MOS modes of MEGARA will provide identical intermediate-to-high spectral resolutions (R-FWHM similar to 6,000, 12,000 and 18,700, respectively for the low-, mid-and high-resolution Volume Phase Holographic gratings) in the range 3700-9800 angstrom angstrom. An x-y mechanism placed at the pseudo-slit position allows (1) exchanging between the two observing modes and (2) focusing the spectrograph for each VPH setup. The spectrograph is a collimator-camera system that has a total of 11 VPHs simultaneously available (out of the 18 VPHs designed and being built) that are placed in the pupil by means of a wheel and an insertion mechanism. The custom-made cryostat hosts a 4kx4k 15-mu m CCD. The unique characteristics of MEGARA in terms of throughput and versatility and the unsurpassed collecting are of GTC make of this instrument the most efficient tool to date to analyze astrophysical objects at intermediate spectral resolutions. In these proceedings we present a summary of the instrument characteristics and the results from the AIV phase. All subsystems have been successfully integrated and the system-level AIV phase is progressing as expected.


Item Type:Article
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© 2016 SPIE. Artículo firmado por 79 autores. Conference on Ground-Based and Airborne Instrumentation for Astronomy (VI. 2016. Edinburgh, Scotland)

Uncontrolled Keywords:Spiral galaxies; Lica-UCM; System
Subjects:Sciences > Physics > Astrophysics
Sciences > Physics > Astronomy
ID Code:41954
Deposited On:20 Apr 2017 10:34
Last Modified:10 Dec 2018 15:05

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