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Researchers using data from the European Space Agency's Gaia mission have identified an enormous exoplanet and a brown dwarf, marking a first in planetary discovery via Gaia's ability to detect stellar wobbles caused by gravitational interactions. These objects, found orbiting low-mass stars, present an unusual scenario that challenges established theories of planetary formation.
A new stu by Erica Marchand
Paris, France (SPX) Feb 06, 2025
Researchers using data from the European Space Agency's Gaia mission have identified an enormous exoplanet and a brown dwarf, marking a first in planetary discovery via Gaia's ability to detect stellar wobbles caused by gravitational interactions. These objects, found orbiting low-mass stars, present an unusual scenario that challenges established theories of planetary formation.
A new study published this week details the confirmation of two enigmatic celestial objects using ESA's Gaia spacecraft data. Named Gaia-4b and Gaia-5b, these entities-a 'Super-Jupiter' exoplanet and a brown dwarf, respectively-have been detected orbiting relatively low-mass stars, a rare occurrence in astrophysics.
Gaia-4b, a gas giant twelve times Jupiter's mass, orbits Gaia-4, a seemingly typical star situated 244 light-years away. Gaia-5b, a 21-Jupiter-mass brown dwarf, circles its host star, Gaia-5, at a distance of 134 light-years from Earth. The discovery of these objects in our galactic neighborhood provides valuable insights into planetary system formation.
"Gaia-4b is a gas giant with an orbital period of 570 days, making it a relatively cool planet," explains Guomundur Stefansson of the University of Amsterdam, the Netherlands, and lead author of the study.
"With a mass of around 21 Jupiters, Gaia-5b falls into the category of brown dwarfs, which are more massive than planets but too light to sustain nuclear fusion like stars," adds Guomundur.
Tracking Stellar Motion to Reveal Exoplanets
Since its launch in 2013, ESA's Gaia spacecraft has been building the most precise three-dimensional map of our galaxy. Utilizing two optical telescopes, it continuously charted the positions of two billion celestial objects with extraordinary accuracy until its scientific operations concluded on January 15, 2025. By employing astrometry-the precise measurement of star movements-Gaia's dataset is expected to unveil thousands of previously unknown objects.The detection technique used in this discovery hinges on observing the gravitational influence an orbiting body exerts on its star, causing a subtle but measurable 'wobble.' Larger, more distant objects are more easily identified using astrometry. Previously, some brown dwarfs had been confirmed via Gaia's data in conjunction with observations from other telescopes that captured their faint glow.
In contrast, the transit method, another widely used exoplanet detection technique, identifies planets as they pass in front of their host star, making it more effective at finding planets in tighter orbits. Although astrometric wobbles indicate a possible planetary presence, they require confirmation via additional methods, such as radial velocity measurements.
"Gaia continuously scanned these stars, gradually constructing an increasingly detailed motion profile," says Guomundur. "By 2022, Gaia Data Release 3 included a set of stars exhibiting motion patterns consistent with planetary influences. We then verified these candidates using ground-based spectroscopic data and the radial velocity method, leading to the confirmation of Gaia-4b and Gaia-5b."
Combining astrometry and radial velocity techniques enables astronomers to determine both the precise orbital details and the mass of detected objects, facilitating the creation of three-dimensional models of their movements.
"Low-mass stars, making up about 75% of the Milky Way's stellar population, range between 10% and 65% of the Sun's mass," Guomundur explains. "Massive planets orbiting such stars are considered rare, yet they generate stronger astrometric signatures due to their proportionally significant gravitational influence."
A New Era for Planetary Discoveries
Unlike previous exoplanet detections that involved Gaia's collaboration with the Hipparcos mission, the confirmation of Gaia-4b relied solely on Gaia's data, marking a major milestone in astrometric planetary discoveries.Looking ahead, Gaia's next data release in 2026 will encompass 5.5 years of observations, potentially uncovering hundreds-if not thousands-of new planets and brown dwarfs around nearby stars. This vast dataset will revolutionize our understanding of planetary system formation and the variety of worlds in our galaxy.
ESA Research Fellow Matthew Standing, an exoplanet expert, emphasizes the significance of this discovery: "Gaia-4b represents the beginning of an exciting wave of exoplanet detections that Gaia will enable in the coming years. This breakthrough reinforces the power of astrometry in complementing other exoplanet detection methods, such as those used by ESA's Cheops and the upcoming Plato mission."
"While Gaia has previously detected known exoplanets, this time it has led to the identification of an entirely new world," says Johannes Sahlmann, Gaia Project Scientist at ESA. "The discovery of Gaia-4b highlights the unique capabilities of Gaia's precision measurements and opens new frontiers in exoplanetary science. The upcoming fourth Gaia data release will be a goldmine for planetary researchers."
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