Tom Vermeulen scite author profile

This paper presents an overview of SPIRou, the new-generation near-infrared spectropolarimeter / precision velocimeter recently installed on the 3.6-m Canada-France-Hawaii Telescope (CFHT). Starting from the two main science goals, namely the quest for planetary systems around nearby M dwarfs and the study of magnetized star / planet formation, we outline the instrument concept that was designed to efficiently address these forefront topics, and detail the in-lab and on-sky instrument performances measured throughout the intensive testing phase that SPIRou was submitted to before passing the final acceptance review in early 2019 and initiating science observations. With a central position among the newly started programmes, the SPIRou Legacy Survey (SLS) Large Programme was allocated 300 CFHT nights until at least mid 2022. We also briefly describe a few of the first results obtained in the various science topics that SPIRou started investigating, focusing in particular on planetary systems of nearby M dwarfs, transiting exoplanets and their atmospheres, magnetic fields of young stars, but also on alternate science goals like the atmospheres of M dwarfs and the Earth’s atmosphere. We finally conclude on the essential role that SPIRou and the CFHT can play in coordination with forthcoming major facilities like the JWST, the ELTs, PLATO and ARIEL over the decade.

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WIRCam: the infrared wide-field camera for the Canada-France-Hawaii Telescope

Puget

Stadler²,

Doyon³

et al. 2004

129

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SPIRou: the near-infrared spectropolarimeter/high-precision velocimeter for the Canada-France-Hawaii telescope

Artigau¹,

Kouach²,

Donati³

et al. 2014

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SPIRou is a near-IRéchelle spectropolarimeter and high-precision velocimeter under construction as a nextgeneration instrument for the Canada-France-Hawaii-Telescope. It is designed to cover a very wide simultaneous near-IR spectral range (0.98-2.35 µm) at a resolving power of 73.5 K, providing unpolarized and polarized spectra of low-mass stars at a radial velocity (RV) precision of 1 m/s. The main science goals of SPIRou are the detection of habitable super-Earths around low-mass stars and the study of how critically magnetic fields impact star / planet formation. Following a successful final design review in Spring 2014, SPIRou is now under construction and is scheduled to see first light in late 2017. We present an overview of key aspects of SPIRou's optical and mechanical design.

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Real-time RF self-interference cancellation for in-band full duplex

Vermeulen

Liempd

Hershbergt

et al. 2015

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Implementation of a laser traffic control system supporting laser guide star adaptive optics on Mauna Kea

Summers

Gregory

Stomski

et al. 2003

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Tom Vermeulen

SPIRou: NIR velocimetry and spectropolarimetry at the CFHT

WIRCam: the infrared wide-field camera for the Canada-France-Hawaii Telescope

SPIRou: the near-infrared spectropolarimeter/high-precision velocimeter for the Canada-France-Hawaii telescope

Real-time RF self-interference cancellation for in-band full duplex

Implementation of a laser traffic control system supporting laser guide star adaptive optics on Mauna Kea

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