Expected observing efficiency of the Maunakea Spectroscopic Explorer (MSE)
The Maunakea Spectroscopic Explorer (MSE) will obtain millions of spectra each year in the optical to near-infrared, at low (R ~ 3,000) to high (R ~ 40,000) spectral resolution by observing >4,000 spectra per pointing via a highly multiplexed fiber-fed system. Key science programs for MSE include...
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Zusammenfassung: | The Maunakea Spectroscopic Explorer (MSE) will obtain millions of spectra
each year in the optical to near-infrared, at low (R ~ 3,000) to high (R ~
40,000) spectral resolution by observing >4,000 spectra per pointing via a
highly multiplexed fiber-fed system. Key science programs for MSE include black
hole reverberation mapping, stellar population analysis of faint galaxies at
high redshift, and sub-km/s velocity accuracy for stellar astrophysics. One key
metric of the success of MSE will be its survey speed, i.e. how many spectra of
good signal-to-noise ratio will MSE be able to obtain every night and every
year. This is defined at the higher level by the observing efficiency of the
observatory and should be at least 80%, as indicated in the Science
Requirements. In this paper we present the observing efficiency budget
developed for MSE based on historical data at the Canada-France-Hawaii
Telescope and other Maunakea Observatories. We describe the typical sequence of
events at night to help us compute the observing efficiency and how we envision
to optimize it to meet the science requirements. |
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DOI: | 10.48550/arxiv.1807.08033 |