Scientists detect gargantuan ‘pimple’ that has plagued a star for at least 7 years
How did your country report this? Share your view in the comments.
Diverging Reports Breakdown
Scientists detect gargantuan ‘pimple’ that has plagued a star for at least 7 years
The planet described in the new study is unusual. Known as TOI-3884 b , it is a Neptune-like world 33 times the mass of Earth. When transiting its star, the planet creates a two-bump drop in the star’s light curve. These asymmetrical transits piqued astronomers’ curiosity. In a 2022 study, they reasoned that the strange transits meant the star’s surface wasn’t uniformly bright, with the fainter patch possibly being a starspot.. The spot, with a radius of 76,000 miles (122,000 kilometers), occupies “about 7% of the surface area of the star,” Patrick Tamburo, the study’s first author, said. In contrast, the largest recorded sunspots, measuring 99,000. miles (160,000 km) across, cover a mere 0.3% of Earth’s sun. But using observational data collected by the Zwicky Transient Facility in California in previous years, the researchers showed that TOi-38 84’s “pimple” has been around for at least seven years.
Most exoplanets are discovered as they transit, or move across, their parent stars. But a new study details the opposite scenario: As a giant planet crossed its host star, peculiarities in its transit signature revealed a new discovery about the star itself — in particular, a spot that occupies an enormous 7% of the star’s surface and has lasted at least seven years.
Nearly 6,000 exoplanets — planets beyond our solar system — have been confirmed to date. While many methods have helped amass this trove, the most successful has been the transit method. This technique, which has helped to reveal nearly 75% of known exoplanets, measures the transient, tiny decrease in a star’s brightness when an orbiting planet passes along the line of sight between the star and an observing telescope.
Most transit signatures in a star’s light curve are similar, comprising a single-step drop. But the planet described in the new study is unusual. Known as TOI-3884 b , it is a Neptune-like world 33 times the mass of Earth. When transiting its star — the tiny M-dwarf star TOI-3884 — the planet creates a two-bump drop in the star’s light curve.
First recorded by NASA’s Transiting Exoplanet Survey Satellite (TESS), these asymmetrical transits piqued astronomers’ curiosity. In a 2022 study , they reasoned that the strange transits meant the star’s surface wasn’t uniformly bright, with the fainter patch possibly being a starspot. (Starspots — like sunspots , but on stars other than the sun — are bunches of tangled magnetic-field lines that are dimmer than the surrounding photosphere.)
To determine features of this starspot, the new study’s authors — astrophysicists from Harvard University and MIT — drew on both the TESS observations along with a computational model of TOI-3884 (starspot included) and its planet. Their analysis revealed that the spot, with a radius of 76,000 miles (122,000 kilometers), occupies “about 7% of the surface area of the star,” Patrick Tamburo , a postdoctoral researcher at Harvard University and the new study’s first author, told Live Science by email. In contrast, the largest recorded sunspots, measuring 99,000 miles (160,000 km) across, cover a mere 0.3% of Earth’s sun.
Related: Bottom of the sun becomes visible to humans for the first time in history (photos)
TOI-3884’s starspot also differs from sunspots in its lifespan. “On the Sun, the longest-lived spots last for a few months,” Tamburo said. But using observational data collected by the Zwicky Transient Facility in California in previous years, the researchers showed that TOI-3884’s “pimple” has been around for at least seven years. Tamburo noted that this isn’t surprising, however, as polar spots on rapidly rotating stars have been known to last for decades.
Sign up for the Live Science daily newsletter now Get the world’s most fascinating discoveries delivered straight to your inbox. Contact me with news and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors
The transits of TOI-3884 b over the polar starspot created double-dip curves. Patrick Tamburo, the study’s lead author, said TOI-3884’s spot “is (to my knowledge) the first polar starspot that has been inferred through the presence of a transiting planet and the impact that the spot has on the transit shape.” (Image credit: Tamburo et al.)
But how could a starspot cause such a peculiar pattern? The 2022 study proposed two possibilities. One is that TOI-3884’s day — the time the star takes to rotate around its axis — is equal to (or a multiple of) the time TOI-3884 b takes to orbit the star once. The second possibility is that the planet orbits over one of the star’s poles, which hosts a large, long-lasting, starspot that is slightly off-center.
Such spots “have been observed on many different types of stars,” including M dwarfs like TOI-3884, Tamburo said . This latter scenario also suggested the planet’s orbit was highly tilted — perhaps even perpendicular — compared to the star’s equator. (In contrast, all of the solar system’s planets have orbits inclined by less than 10 degrees.)
To investigate the first scenario, the researchers estimated TOI-3884’s rotational period. Using observations of TOI-3884 taken from the Arizona-based Tierras Observatory in 2024 and 2025, the researchers discovered that the planet rotated once every 11 days.
The data also showed that TOI-3884 b transited every 4.5 days, suggesting that this was the planet’s orbital period. This meant the ratio of the planet’s orbital period to the star’s rotational period wasn’t a whole number, ruling out the first hypothesis.
To test the second hypothesis, the researchers relied on their computational model, searching for values for various parameters that would best explain the observations. The best-fitting explanation, they found, is that TOI-3884 b orbits along a near-perpendicular path around its star, whose spot lies at a latitude of 80 degrees. The modeling also implied that the starspot likely pirouetted around the star’s pole, making it partly or fully visible to Earth-based viewers, which would explain the slight variations in TOI 3884-b’s transits.
As for TOI-3884 b’s perpendicular path, Tamburo said that either another planet or a star shoved it from its original orbit, or the disk of material from which TOI-3884 b was born was itself tilted relative to the star.
Scientists detect gargantuan ‘pimple’ that has plagued a star for at least 7 years
The planet described in the new study is unusual. Known as TOI-3884 b , it is a Neptune-like world 33 times the mass of Earth. When transiting its star, the planet creates a two-bump drop in the star’s light curve. These asymmetrical transits piqued astronomers’ curiosity. In a 2022 study, they reasoned that the strange transits meant the star’s surface wasn’t uniformly bright, with the fainter patch possibly being a starspot. Their analysis revealed that the spot, with a radius of 76,000 miles (122,000 kilometers), occupies “about 7% of the surface area of the star” In contrast, the largest recorded sunspots, measuring 99,000mile (160,000 km) across, cover a mere 0.3% of Earth’s sun. To my knowledge, this is the first starspot that has been inferred through the presence of a transiting planet and the impact of the spot on the star.
Yahoo is using AI to generate takeaways from this article. This means the info may not always match what’s in the article. Reporting mistakes helps us improve the experience.
Yahoo is using AI to generate takeaways from this article. This means the info may not always match what’s in the article. Reporting mistakes helps us improve the experience. Generate Key Takeaways
When you buy through links on our articles, Future and its syndication partners may earn a commission.
Sunspots photographed in 2014. Spots that are this small are difficult to detect on distant stars, since they result in brightness fluctuations that are too minuscule to avoid being labeled as noise. However, a novel method may have just uncovered a giant spot on an alien star. | Credit: NASA Goddard
Most exoplanets are discovered as they transit, or move across, their parent stars. But a new study details the opposite scenario: As a giant planet crossed its host star, peculiarities in its transit signature revealed a new discovery about the star itself — in particular, a spot that occupies an enormous 7% of the star’s surface and has lasted at least seven years.
Nearly 6,000 exoplanets — planets beyond our solar system — have been confirmed to date. While many methods have helped amass this trove, the most successful has been the transit method. This technique, which has helped to reveal nearly 75% of known exoplanets, measures the transient, tiny decrease in a star’s brightness when an orbiting planet passes along the line of sight between the star and an observing telescope.
Advertisement Advertisement
Advertisement Advertisement
Most transit signatures in a star’s light curve are similar, comprising a single-step drop. But the planet described in the new study is unusual. Known as TOI-3884 b , it is a Neptune-like world 33 times the mass of Earth. When transiting its star — the tiny M-dwarf star TOI-3884 — the planet creates a two-bump drop in the star’s light curve.
First recorded by NASA’s Transiting Exoplanet Survey Satellite (TESS), these asymmetrical transits piqued astronomers’ curiosity. In a 2022 study , they reasoned that the strange transits meant the star’s surface wasn’t uniformly bright, with the fainter patch possibly being a starspot. (Starspots — like sunspots , but on stars other than the sun — are bunches of tangled magnetic-field lines that are dimmer than the surrounding photosphere.)
To determine features of this starspot, the new study’s authors — astrophysicists from Harvard University and MIT — drew on both the TESS observations along with a computational model of TOI-3884 (starspot included) and its planet. Their analysis revealed that the spot, with a radius of 76,000 miles (122,000 kilometers), occupies “about 7% of the surface area of the star,” Patrick Tamburo , a postdoctoral researcher at Harvard University and the new study’s first author, told Live Science by email. In contrast, the largest recorded sunspots, measuring 99,000 miles (160,000 km) across, cover a mere 0.3% of Earth’s sun.
Related: Bottom of the sun becomes visible to humans for the first time in history (photos)
Advertisement Advertisement
Advertisement Advertisement
TOI-3884’s starspot also differs from sunspots in its lifespan. “On the Sun, the longest-lived spots last for a few months,” Tamburo said. But using observational data collected by the Zwicky Transient Facility in California in previous years, the researchers showed that TOI-3884’s “pimple” has been around for at least seven years. Tamburo noted that this isn’t surprising, however, as polar spots on rapidly rotating stars have been known to last for decades.
The transits of TOI-3884 b over the polar starspot created double-dip curves. Patrick Tamburo, the study’s lead author, said TOI-3884’s spot “is (to my knowledge) the first polar starspot that has been inferred through the presence of a transiting planet and the impact that the spot has on the transit shape.” | Credit: Tamburo et al.
But how could a starspot cause such a peculiar pattern? The 2022 study proposed two possibilities. One is that TOI-3884’s day — the time the star takes to rotate around its axis — is equal to (or a multiple of) the time TOI-3884 b takes to orbit the star once. The second possibility is that the planet orbits over one of the star’s poles, which hosts a large, long-lasting, starspot that is slightly off-center.
Such spots “have been observed on many different types of stars,” including M dwarfs like TOI-3884, Tamburo said . This latter scenario also suggested the planet’s orbit was highly tilted — perhaps even perpendicular — compared to the star’s equator. (In contrast, all of the solar system’s planets have orbits inclined by less than 10 degrees.)
To investigate the first scenario, the researchers estimated TOI-3884’s rotational period. Using observations of TOI-3884 taken from the Arizona-based Tierras Observatory in 2024 and 2025, the researchers discovered that the planet rotated once every 11 days.
Advertisement Advertisement
Advertisement Advertisement
The data also showed that TOI-3884 b transited every 4.5 days, suggesting that this was the planet’s orbital period. This meant the ratio of the planet’s orbital period to the star’s rotational period wasn’t a whole number, ruling out the first hypothesis.
RELATED STORIES
—’A completely new phenomenon’: Astronomers spot a planet causing its star to constantly explode
—Alcohol-soaked star system could help explain ‘why life, including us, was able to form’
—Giant ‘senior citizen’ sunspot on 3rd trip around the sun could break a century-old record
To test the second hypothesis, the researchers relied on their computational model, searching for values for various parameters that would best explain the observations. The best-fitting explanation, they found, is that TOI-3884 b orbits along a near-perpendicular path around its star, whose spot lies at a latitude of 80 degrees. The modeling also implied that the starspot likely pirouetted around the star’s pole, making it partly or fully visible to Earth-based viewers, which would explain the slight variations in TOI 3884-b’s transits.
Advertisement Advertisement
Advertisement Advertisement
As for TOI-3884 b’s perpendicular path, Tamburo said that either another planet or a star shoved it from its original orbit, or the disk of material from which TOI-3884 b was born was itself tilted relative to the star.