Astrophysicists have once again enriched our knowledge of the cosmos with a new discovery: two small planets orbiting TOI-1453. Located at around 250 light years from Earth in the Draco constellation, this star is part of a binary system (a pair of stars orbiting each other) and is slightly cooler and smaller than our sun. This discovery, published in the journal Astronomy & Astrophysics, paves the way for future atmospheric studies to better understand these types of planets.

Around this star are two planets, a super-Earth and a sub-Neptune. These are types of planets that are absent from our own solar system, but paradoxically constitute the most common classes of planet in the Milky Way. This discovery sheds light on a planetary configuration that could provide valuable clues to the formation and evolution of planets.

Using data from NASA's Transiting Exoplanet Survey Satellite (TESS) and the HARPS-N high-resolution spectrograph, the researchers were able to identify TOI-1453 b and TOI-1453 c, the two exoplanets orbiting TOI-1453.

"The two planets present an interesting contrast in their characteristics," explains Manu Stalport, astrophysicist at the University of Liège and first author of the publication.

"TOI-1453 b is a super-Earth, slightly larger than our planet, and probably rocky. It completes its orbit in just 4.3 days, making it a very close planet to its star. In contrast, TOI-1453 c is a sub-Neptune, about 2.2 times the size of Earth but with an extraordinarily low mass of just 2.9 Earth masses. This makes it one of the least dense sub-Neptunes ever discovered, which raises questions about its composition."

TOI-1453 c: A key sub-Neptune in a system of two exoplanets — The exoplanets whose mass and radius have been measured appear in gray on this graph. TOI-1453 b (orange) and TOI-1453 c (green) are superimposed. The less dense a planet is, the higher up on the left-hand side of the graph it appears. TOI-1453 c stands out as one of the least dense exoplanets among those with masses between 2 and 4 Earth masses. In this mass range, planets are generally smaller and super-Earth-like, while sub-Neptunes are rare. The curves displayed represent theoretical models of composition: the solid lines indicate models with no atmosphere, while the dotted lines correspond to rocky planets similar to Earth, surrounded by an atmosphere of hydrogen and helium with different mass fractions. TOI-1453 c lies in an area of the mass-radius diagram compatible with either a thick atmosphere or a thin gaseous envelope covering a planet with a high water content. Credit: Lopez2014

Transit and radial velocity

Detecting exoplanets remains a complex task. The team relied on two key methods to confirm their discoveries. The transit method (TESS data) measures the size and orbital period as the planet passes in front of its host star, causing a slight decrease in brightness.

The second method used is radial velocity measurement (HARPS-N data), which involves observing the variations in the velocity of a star under the effect of the gravity of a planet orbiting it. By studying the gravitational influence exerted by the planets on their host star, the researchers were able to measure their masses and densities.

"All these observations have revealed that TOI-1453 c is extremely light for its size, suggesting that it could have a thick hydrogen-rich atmosphere or a composition dominated by water. This makes it an ideal candidate for future atmospheric studies," enthuses Manu Stalport. "Understanding their formation and evolution could provide clues about the development of planetary systems, including our own."

What's more, the two planets orbit in a configuration close to a 3:2 resonance, meaning that for every three orbits of the inner planet, the outer planet completes almost exactly two. Such resonances are considered a natural consequence of orbital migration, offering clues as to how the planets move and settle into their final orbits.

This discovery opens up new research prospects. Observational instruments such as the James Webb Space Telescope (JWST) could analyze TOI-1453 c's atmosphere to determine its main composition. If this planet has a substantial hydrogen-rich atmosphere or a water-dominated interior, it could redefine our understanding of sub-Neptunes and their formation.

More information: M. Stalport et al, TESS and HARPS-N unveil two planets transiting TOI-1453. A super-Earth and one of the lowest mass sub-Neptunes, Astronomy & Astrophysics (2025). DOI: 10.1051/0004-6361/202452969

Journal information: Astronomy & Astrophysics

Provided by University de Liege

Citation: TOI-1453 c: A key sub-Neptune discovered in a system of two exoplanets (2025, March 14) retrieved 14 March 2025 from https://phys.org/news/2025-03-toi-key-neptune-exoplanets.htmlThis document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

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Two sub-Neptune exoplanets detected by astronomers

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