Astronomers using the recently installed instrument MAROON-X on Gemini North have determined the mass of a transiting exoplanet orbiting the nearby star Gliese 486. As well as putting the innovative new instrument through its paces, this result, when combined with data from the TESS satellite, precisely measures key properties of a rocky planet that is ideal for follow-up observations with the next generation of ground- and space-based telescopes.

The exoplanet-hunting instrument MAROON-X has obtained its first scientific result from its new home at the 8.1-meter Gemini North telescope, part of the international Gemini Observatory, a program of NSF's NOIRLab. Shipped from the University of Chicago in mid-2019, the instrument arrived at Gemini in a collection of wooden packing crates.

Despite exhausting 12-hour shifts in the thin air at an altitude of 4300 meters (14,000 feet), the MAROON-X team successfully constructed and installed the instrument in a six-month process known as commissioning. The assembled instrument takes advantage of Gemini North's location on Maunakea in Hawai'i - one of the best observing sites on the planet.

"It's been an intense six-month stretch," explained Jacob Bean, head of the University of Chicago team behind MAROON-X. "We've spent ten years developing the instrument and with MAROON-X now installed on Gemini we will start to get real insights into habitable worlds around other stars."

The technical core of MAROON-X lies at the end of a bundle of fibers trailing from behind the main mirror of Gemini North to a small room several floors below. Inside this temperature-controlled room and encased in a vacuum chamber, a collection of high-precision optical devices forms the spectrometer at the heart of MAROON-X. This spectrometer measures variations in the light from distant stars to detect the subtle influence of orbiting worlds - making MAROON-X an outstanding exoplanet hunter.

MAROON-X's first science result determined the mass of the newly discovered rocky planet Gliese 486 b, which orbits Gliese 486, a star smaller and dimmer than our own Sun. The planet has a mass roughly three times that of the Earth, but has a similar density. The composition of this newly discovered exoplanet is not its only distinguishing feature - its relative closeness to Earth makes it an ideal candidate for observations with the next generation of astronomical technology.

"The proximity of this exoplanet is exciting because it will be possible to study it in more detail with powerful telescopes such as the upcoming James Webb Space Telescope and the various Extremely Large Telescopes such as the GMT and TMT," explained Trifon Trifonov, lead author of the paper reporting this discovery. "Within the next few years, we hope to use transit spectroscopy to search for signs of an atmosphere and possibly determine this planet's surface composition."

MAROON-X was developed to find and characterize exactly this type of exoplanet - rocky worlds around nearby stars whose atmospheres are suitable for follow-up investigation using future instruments. As well as next-generation telescopes, MAROON-X was designed to work alongside NASA's Transiting Exoplanet Survey Satellite (TESS).

In the case of Gliese 486 b, the team used MAROON-X measurements and additional data from the CARMENES spectrograph at the Calar Alto Observatory to determine the exoplanet's mass, and combined this with the planetary radius measured by the TESS mission to find the density of Gliese 486 b - revealing it to be a rocky super-Earth.

"MAROON-X provides a new, valuable addition to Gemini's visiting instrument program. Demonstrating exciting precision and sensitivity, it is available for use by the astronomical community to discover and characterize new worlds," said National Science Foundation Division of Astronomical Sciences Program Officer Martin Still.

MAROON-X's capabilities are already popular amongst the astronomical community, with a surge of requests for observation time following the instrument's commissioning. Four long observation campaigns have already been completed despite the impact of COVID-19, as MAROON-X can be operated fully remotely.

In fact, the observations of Gliese 486 b were some of the first observations obtained with Gemini North after it restarted operations in May 2020. Even without astronomers on site, the capabilities of Gemini and MAROON-X have been impressive - the instrument can detect exoplanets around stars that are 150 times fainter than those visible to the naked eye.

"This result demonstrates the unprecedented capability of MAROON-X," concluded Jacob Bean. "This is only our first result, and as we find more we will determine what kinds of rocky planets are out there, ultimately helping us learn more about the formation and evolution of the Earth."

Research Report: "A nearby transiting rocky planet ideal for atmospheric investigation"

Related Links
Association Of Universities For Research In Astronomy (AURA)
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