https://nouvelles.umontreal.ca/en/article/2025/07/22/a-udem-team-confirms-a-fifth-potentially-habitable-planet-around-l-98-59-a-red-dwarf-35-l/

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A diverse cast of rocky worlds around a small star revealed by
Montreal astronomers

  * UdeMNouvelles
  * 07/22/2025

Illustration of the planetary system of L 98-59. Five small
exoplanets orbit closely around this red dwarf star, located 35
light-years away. In the foreground is the habitable-zone super-Earth
L 98-59 f, whose existence was conufirmed in this study. Credit:
Benoit Gougeon/UdeM

Illustration of the planetary system of L 98-59. Five small
exoplanets orbit closely around this red dwarf star, located 35
light-years away. In the foreground is the habitable-zone super-Earth
L 98-59 f, whose existence was conufirmed in this study. Credit:
Benoit Gougeon/UdeM

Credit: Benoit Gougeon, Universite de Montreal

[en_5_secondes_en] In 5 seconds

A team led by UdeM researchers confirms a fifth potentially habitable
planet around L 98-59, a red dwarf 35 light-years away.

A team led by the Trottier Institute for Research on Exoplanets
(IREx) at the Universite de Montreal has achieved the most precise
study to date of the L 98-59 planetary system, and confirmed the
existence of a fifth planet in the star's habitable zone, where
conditions could allow liquid water to exist.

Volcanic planets, a sub-Earth, and a water world

 Charles Cadieux, the IREx researcher who led the study on the L
98-59 system. Courtesy photo

Charles Cadieux, the IREx researcher who led the study on the L 98-59
system. Courtesy photo

Credit: Courtesy

L 98-59, a small red dwarf located just 35 light-years from Earth,
hosts three small transiting exoplanets discovered in 2019, thanks to
NASA's TESS space telescope, and a fourth planet revealed through
radial velocity measurements with the European Southern Observatory's
ESPRESSO spectrograph. All four planets orbit their parent star in a
compact orbital configuration, all at distances five times closer
than Mercury is to the Sun.

By carefully reanalyzing a rich set of observations from ground-based
and space-based telescopes, a team led by Universite de Montreal and
Trottier Institute for Research on Exoplanets (IREx) researcher
Charles Cadieux has determined the planets' sizes and masses with
unprecedented precision.

"These new results paint the most complete picture we've ever had of
the fascinating L 98-59 system," said Cadieux. "It's a powerful
demonstration of what we can achieve by combining data from space
telescopes and high-precision instruments on Earth, and it gives us
key targets for future atmospheric studies with the James Webb Space
Telescope [JWST]."

All planets in the system have masses and sizes compatible with the
terrestrial regime. The innermost planet, L 98-59 b, is only 84% of
Earth's size and about half its mass, making it one of the rare
sub-Earths known with well-measured parameters.

The two inner planets may experience extreme volcanic activity due to
tidal heating, similar to Jupiter's volcanic Moon, Io, in the Solar
System. Meanwhile, the third, unusually low in density, may be a
"water world," a planet enriched in water unlike anything in our
Solar System.

The refined measurements reveal nearly perfectly circular orbits for
the inner planets, a favourable configuration for future atmospheric
detections.

"With its diversity of rocky worlds and range of planetary
compositions, L 98-59 offers a unique laboratory to address some of
the field's most pressing questions: What are super-Earths and
sub-Neptunes made of? Do planets form differently around small stars?
Can rocky planets around red dwarfs retain atmospheres over time?"
adds Rene Doyon, co-author of the study, who is a professor at UdeM
and the Director of IREx.

A fifth planet in the habitable zone

One of the key breakthroughs of this study is the confirmation of a
fifth planet in the L 98-59 system. This planet, designated
L 98-59 f, does not transit its host star -- meaning it doesn't pass
directly between us and the star -- but its presence was revealed
through subtle variations in the star's motion, detected using radial
velocity measurements from HARPS (High Accuracy Radial velocity
Planet Searcher) and ESPRESSO data.

L 98-59 f receives about the same amount of stellar energy as Earth
does from the Sun, placing it firmly within the temperate, or
habitable zone, a region where water could remain in liquid form.

"Finding a temperate planet in such a compact system makes this
discovery particularly exciting," said Cadieux. "It highlights the
remarkable diversity of exoplanetary systems and strengthens the case
for studying potentially habitable worlds around low-mass stars."

  *  This study exploits data from two ground-based telescopes: the
    Very Large Telescope

    This study exploits data from two ground-based telescopes: the
    Very Large Telescope (top left, credit: ESO/G. Hudepohl) and the
    ESO 3.6-metre telescope, with the HARPS instrument (top right,
    credit: ESO), as well as two space telescopes: TESS and JWST,
    shown here in artistic representations, respectively, bottom
    right and bottom left.

    Credit: NASA
  *  This study exploits data from two ground-based telescopes: the
    Very Large Telescope

    This study exploits data from two ground-based telescopes: the
    Very Large Telescope (top left, credit: ESO/G. Hudepohl) and the
    ESO 3.6-metre telescope, with the HARPS instrument (top right,
    credit: ESO), as well as two space telescopes: TESS and JWST,
    shown here in artistic representations, respectively, bottom
    right and bottom left.

    Credit: NASA

Unlocking new insights with existing observations

Rather than requesting new telescope time, the team made these
discoveries by relying on a rich archive of data from NASA's TESS
space telescope, ESO's HARPS and ESPRESSO spectrographs in Chile, and
the JWST.

They employed the novel line-by-line radial velocity analysis
technique introduced by IREx researchers in 2022 to improve the
precision of the data significantly. By combining it with a new
differential temperature indicator also developed by the team, they
were able to precisely identify and remove the stellar activity
signal from the data, revealing the planetary signal in unprecedented
detail.

By combining these enhanced measurements with analysis of transits
seen by JWST, the team doubled the precision of mass and radius
estimates for the known planets.

"We developed these techniques to unlock this kind of hidden
potential in archival data," adds Etienne Artigau, co-author of the
study and researcher at UdeM. "It also highlights how improving
analysis tools allow us to improve upon previous discoveries with
data that is just waiting to be revisited."

Next stop: Webb

These results confirm L 98-59 as one of the most compelling nearby
systems for exploring the diversity of rocky planets, and,
eventually, searching for signs of life.

Its proximity, the small size of its star, and the range of planetary
compositions and orbits make it an ideal candidate for atmospheric
follow-up with the JWST, which the IREx team has already started.

"With these new results, L 98-59 joins the select group of nearby,
compact planetary systems that we hope to understand in greater
detail over the coming years," says Alexandrine L'Heureux, co-author
of the study and Ph.D. student at UdeM. "It's exciting to see it
stand alongside systems like TRAPPIST-1 in our quest to unlock the
nature and formation of small planets orbiting red dwarf stars."

About this study

The article "Detailed Architecture of the L 98-59 System and
Confirmation of a Fifth Planet in the Habitable Zone" will appear
shortly in The Astronomical Journal. The team, led by Charles
Cadieux, includes Alexandrine L'Heureux, Caroline Piaulet-Ghorayeb
(now at the University of Chicago), Rene Doyon, Etienne Artigau, Neil
J. Cook, Louis-Philippe Coulombe, Pierre-Alexis Roy, David
Lafreniere, Pierrot Lamontagne, Michael Radica (now at the University
of Chicago), and Bjorn Benneke of the Trottier Institute for Research
on Exoplanets (IREx) at the Universite de Montreal. Additional
co-authors are Eva-Maria Ahrer (Max Planck Institute for Astronomy,
Germany), Drew Weisserman (McMaster University, Canada), and Ryan
Cloutier (McMaster University, Canada).

Media contact

  * Julie Gazaille
    Universite de Montreal
    Tel: 514 343-6796
  * Frederique Baron
    Institut Trottier de recherche sur les exoplanetes (IREx)

Subjects

astrophysics astronomy research Rene Doyon David Lafreniere Bjorn
Benneke Faculty of Arts and Sciences Institut de recherche sur les
exoplanetes

Language

Francais
 
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