Kei Seto
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View article: Optimal scheduling and science delivery of spectra for millions of\n targets in thousands of fields: the operational concept of the Maunakea\n spectroscopic explorer (MSE)
Optimal scheduling and science delivery of spectra for millions of\n targets in thousands of fields: the operational concept of the Maunakea\n spectroscopic explorer (MSE) Open
The Maunakea Spectroscopic Explorer (MSE) will each year obtain millions of\nspectra in the optical to near-infrared, at low (R~3000) to high (R~40000)\nspectral resolution by observing >3000 spectra per pointing via a highly\nmultiplexed …
View article: Optimal scheduling and science delivery of spectra for millions of targets in thousands of fields: the operational concept of the Maunakea spectroscopic explorer (MSE)
Optimal scheduling and science delivery of spectra for millions of targets in thousands of fields: the operational concept of the Maunakea spectroscopic explorer (MSE) Open
The Maunakea Spectroscopic Explorer (MSE) will each year obtain millions of spectra in the optical to near-infrared, at low (R~3000) to high (R~40000) spectral resolution by observing >3000 spectra per pointing via a highly multiplexed fib…
View article: Expected observing efficiency of the Maunakea Spectroscopic Explorer (MSE)
Expected observing efficiency of the Maunakea Spectroscopic Explorer (MSE) Open
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 multiple…
View article: Maximising the sensitivity of next generation multi-object spectroscopy:\n system budget development and design optimizations for the Maunakea\n Spectroscopic Explorer
Maximising the sensitivity of next generation multi-object spectroscopy:\n system budget development and design optimizations for the Maunakea\n Spectroscopic Explorer Open
MSE is an 11.25m telescope with a 1.5 sq.deg. field of view. It can\nsimultaneously obtain 3249 spectra at R=3000 from 360-1800nm, and 1083 spectra\nat R=40000 in the optical. Absolutely critical to the scientific success of MSE\nis to eff…
View article: Maximising the sensitivity of next generation multi-object spectroscopy: system budget development and design optimizations for the Maunakea Spectroscopic Explorer
Maximising the sensitivity of next generation multi-object spectroscopy: system budget development and design optimizations for the Maunakea Spectroscopic Explorer Open
MSE is an 11.25m telescope with a 1.5 sq.deg. field of view. It can simultaneously obtain 3249 spectra at R=3000 from 360-1800nm, and 1083 spectra at R=40000 in the optical. Absolutely critical to the scientific success of MSE is to effici…
View article: Modeling and budgeting fiber injection efficiency for the Maunakea spectroscopic explorer (MSE)
Modeling and budgeting fiber injection efficiency for the Maunakea spectroscopic explorer (MSE) Open
The Maunakea Spectroscopic Explorer (MSE) will each year obtain millions of spectra 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 multiple…
View article: Expected observing efficiency of the Maunakea Spectroscopic Explorer\n (MSE)
Expected observing efficiency of the Maunakea Spectroscopic Explorer\n (MSE) Open
The Maunakea Spectroscopic Explorer (MSE) will obtain millions of spectra\neach year in the optical to near-infrared, at low (R ~ 3,000) to high (R ~\n40,000) spectral resolution by observing >4,000 spectra per pointing via a\nhighly multi…
View article: Modeling and budgeting fiber injection efficiency for the Maunakea\n spectroscopic explorer (MSE)
Modeling and budgeting fiber injection efficiency for the Maunakea\n spectroscopic explorer (MSE) Open
The Maunakea Spectroscopic Explorer (MSE) will each year obtain millions of\nspectra in the optical to near-infrared, at low (R ~ 3,000) to high (R ~\n40,000) spectral resolution by observing >4,000 spectra per pointing via a\nhighly multi…