A 9th planet in our solar system? Scientists finally find a potential candidate to ‘replace' Pluto
The empty seat on the 9th row might just be filled!
There possibly is a 9th planet after all (and a
replacement for Pluto
)!
Researchers have *finally* found a candidate for the hypothetical
Planet Nine
, which could be an undiscovered giant planet way out in our solar system.
Read on to find out more about the potential candidate!
The 9th planet!
It's been almost two decades since our solar system lost its 9th planet. Pluto was officially reclassified from a planet to a
dwarf planet
by the International Astronomical Union (IAU) in August 2006. While Pluto orbits the Sun and is large enough to be spherical due to gravity, it is not big enough to gravitationally dominate its orbital region, meaning other objects share its path in the Kuiper Belt. Pluto was reclassified as a dwarf planet in 2006 by the IAU because it failed to meet the third criterion for being a planet: it did not "clear its neighborhood" around its orbit.
Nearly two decades after that, astronomers claim that they may have found new evidence that points to a celestial body that could be a possible candidate as "Planet Nine," according to a new paper, which has been accepted for publication in the Publications of the
Astronomical Society of Australia
but not yet peer-reviewed.
What do the researchers say?
Astronomers engaged in the search for a hypothetical
ninth planet in our solar system
have identified a promising candidate situated well beyond Neptune, according to a recent preprint study. This finding may represent the first substantial evidence of the long theorized Planet Nine, which, if confirmed, would be a large, yet-to-be-discovered world orbiting the sun at a considerable distance. However, the prospect of Planet Nine remains a debated topic within the scientific community, and skepticism surrounds the new findings.
The potential planetary candidate was detected while researchers analyzed archival data from two decommissioned satellites: the Infrared Astronomical Satellite (IRAS), operational in 1983, and the AKARI satellite, which functioned from 2006 to 2011. The team was specifically looking for distant objects exhibiting slow movement characteristic of a large planet's orbit. After dismissing known celestial objects, they focused on a shortlist of candidates and ultimately identified what they referred to as "one good candidate." This candidate appeared as a consistent dot in infrared images from both satellites, indicative of a single object.
Study lead author Terry Phan, a doctoral student in astronomy at the National Tsing Hua University in Taiwan, expressed excitement over the discovery, noting its motivational impact on the research team. Their findings were shared on the preprint server arXiv on April 24 and have been accepted for publication in the journal Publications of the Astronomical Society of Australia.
Who is the potential candidate for the 9th planet?
According to the paper, the hidden candidate is likely the size of Neptune and is so far away that it could take between 10,000 and 20,000 years to orbit the sun.
The criteria to be a Planet:
For a celestial body to be classified as a planet, the IAU defines, it must meet three criteria: it must orbit a star, it must be massive enough to have achieved hydrostatic equilibrium (meaning it is round or nearly round), and it must have cleared its orbital neighborhood, meaning it is the dominant gravitational body in its orbit.
Is Planet Nine the replacement for Pluto?
Despite this progress, some experts remain unconvinced. Notably, Caltech astronomer Mike Brown, who originally proposed the Planet Nine hypothesis alongside a colleague in 2016, has expressed doubts regarding the infrared signals' connection to the elusive planet. Brown analyzed the orbit of the candidate and concluded that its tilt—approximately 120 degrees from the Solar System's plane—deviates significantly from the predicted tilt for Planet Nine, which should be around 15 to 20 degrees. This discrepancy suggests the object may not significantly influence the orbits of other known planets.
The predictive position of Planet Nine is designed to account for the irregular orbits observed among some objects in the Kuiper Belt at the outer edges of our solar system. However, many researchers contest the notion that an undiscovered planet is responsible for these anomalies, and direct observational evidence for Planet Nine's existence remains elusive.
If Planet Nine does exist, predictions indicate that it would be considerably larger than Earth, orbiting the sun in a distant and unusual path. The vast distance from the sun makes detection particularly challenging, complicating efforts to confirm or refute its existence.
Follow-up observations are necessary to refine the orbit of the identified candidate. Brown has suggested that if the infrared signal indicates a planet, it would contradict the existence of the originally hypothesized Planet Nine, as their orbits would likely destabilize each other.
Evidence of ninth planet found in solar system
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
India Today
5 days ago
- India Today
One year here is 25,000 days: Possible Dwarf planet discovered in Solar System
Astronomers have long been on the hunt for planet X, a world hidden in the dark corner at the far reaches of the Solar System and they have hit upon a object about 700 kilometers wide has been detected in the frigid region of the Solar System that might qualify as a dwarf planet.A dwarf planet is a type of celestial body in our solar system that shares some similarities with regular (major) planets but doesn't meet all the criteria to be classified as Dubbed 2017 OF201, the object is trans-Neptunian orbiting the sun at a distance beyond that of Neptune. The object takes about 25,000 years to complete a single orbit of the sun, compared to 365 days for Earth to do so."It is potentially large enough to qualify as a dwarf planet. Its orbit is very wide and eccentric, which means it experienced an interesting orbital migration path in the past," said astrophysicist Sihao Cheng of the Institute for Advanced Study in Princeton, New Jersey, who led the study. Cutout images of all 19 detections of the newly identified trans-Neptunian object. (Photo: Reuters) advertisementIts size is estimated to be slightly smaller than Ceres—the smallest of the five officially recognized dwarf planets—which measures about 590 miles (950 km) across. For comparison, Pluto, the largest among them, has a diameter of roughly 1,477 miles (2,377 km).As for its heft, 2017 OF201 is incredibly lightweight on a cosmic scale. Scientists estimate its mass is about 20,000 times less than Earth's and 50 times less than Pluto's."We don't know the shape yet," said astronomer Cheng. "Unfortunately, it's too far away and difficult to resolve with current telescopes." Its composition remains a mystery as well, though researchers believe it's probably similar to other icy objects in the outer solar object's discovery was announced by the Minor Planet Center of the International Astronomical Union, and the findings were detailed in a study posted on the open-access platform arXiv."We still don't know much about the solar system far away because currently, it is difficult to directly see things beyond about 150 astronomical units. The presence of this single object suggests that there could be another hundred or so other objects with similar orbit and size. They are just too far away to be detectable right now," Cheng Watch
The Print
6 days ago
- The Print
Possible new dwarf planet spotted near the edge of the solar system
Given the name 2017 OF201, the object falls into a category called trans-Neptunian objects that orbit the sun at a distance beyond that of Neptune. The object takes about 25,000 years to complete a single orbit of the sun, compared to 365 days for Earth to do so. The researchers called it one of the most distant visible objects in our solar system, and said its existence indicates that a vast expanse of space beyond the outermost planet Neptune and a region called the Kuiper Belt may not be deserted, as long thought. The Kuiper Belt is populated by numerous icy bodies. By Will Dunham WASHINGTON (Reuters) -Scientists have identified an object about 435 miles (700 km) wide inhabiting the frigid outer reaches of our solar system that might qualify as a dwarf planet, spotting it as it travels on a highly elongated orbital path around the sun. The researchers said 2017 OF201 was identified in observations by telescopes in Chile and Hawaii spanning seven years. 'It is potentially large enough to qualify as a dwarf planet. Its orbit is very wide and eccentric, which means it experienced an interesting orbital migration path in the past,' said astrophysicist Sihao Cheng of the Institute for Advanced Study in Princeton, New Jersey, who led the study with collaborators Jiaxuan Li and Eritas Yang, graduate students at Princeton University. Its size is estimated to be a bit smaller than Ceres, which is the smallest of the solar system's five recognized dwarf planets and has a diameter of about 590 miles (950 km). Pluto, the largest of those dwarf planets, has a diameter of about 1,477 miles (2,377 km). The mass of 2017 OF201 is estimated to be about 20,000 times smaller than Earth's and 50 times smaller than Pluto's. 'We don't know the shape yet. Unfortunately it is too far away and it is a bit difficult to resolve it with telescopes,' Cheng said. 'Its composition is totally unknown yet, but likely similar to other icy bodies.' The discovery was announced by the Minor Planet Center of the International Astronomical Union, an international organization of astronomers, and detailed in a study posted on the open-access research site arXiv. The study has not yet been peer reviewed. Earth's orbital distance from the sun is called an astronomical unit. 2017 OF201 is currently located at a distance of 90.5 astronomical units from the sun, meaning 90.5 times as far as Earth. But at its furthest point during its orbit, 2017 OF201 is more than 1,600 astronomical units from the sun, while the closest point on its orbit is about 45 astronomical units. That means it sometimes is closer to the sun than Pluto, whose orbital distance ranges from 30 to 49 astronomical units as it travels an elliptical path around the sun. The researchers suspect that the extreme orbit of 2017 OF201 may have been caused by a long-ago close encounter with the gravitational influence of a giant planet. 'We still don't know much about the solar system far away because currently it is difficult to directly see things beyond about 150 astronomical units,' Cheng said. 'The presence of this single object suggests that there could be another hundred or so other objects with similar orbit and size. They are just too far away to be detectable right now.' The five dwarf planets recognized by the International Astronomical Union are, in order of distance from the sun: Ceres, which is the largest object in the asteroid belt between Mars and Jupiter, then Pluto, Haumea, Makemake and Eris, which all orbit beyond Neptune. The organization defines a planet and a dwarf planet differently. A planet must orbit its host star – in our case the sun – and must be mostly round and sufficiently large that its gravitational strength clears away any other objects of similar size near its orbit. A dwarf planet must orbit the sun and be mostly round but it has not cleared its orbit of other objects. Cheng said the discovery of 2017 OF201 has implications for hypotheses involving the potential existence of a ninth planet in our solar system, dubbed Planet X or Planet Nine. This is because 2017 OF201's orbit does not follow the pattern exhibited by other known trans-Neptunian objects, which tend to cluster together. Some scientists had hypothesized that such clustering was caused by the gravity of a yet-to-be discovered planet. 'The existence of 2017 OF201 as an outlier to such clustering could potentially challenge this hypothesis,' Cheng said. (Reporting by Will Dunham; Editing by Daniel Wallis) Disclaimer: This report is auto generated from the Reuters news service. ThePrint holds no responsibility for its content.
Hans India
7 days ago
- Hans India
What is Oumuamua? 6 Fascinating Facts About the First Interstellar Visitor to Our Solar System
In 2017, astronomers made a groundbreaking discovery: the first known interstellar object to pass through our solar system. Named 'Oumuamua—a Hawaiian word meaning 'a messenger from afar arriving first'—this mysterious object has intrigued scientists and the public alike ever since. Here are six key facts about this cosmic visitor. 1. Discovery That Changed Astronomy Oumuamua was detected on October 19, 2017, by the University of Hawaii's Pan-STARRS1 telescope. Officially designated 1I/2017 U1 by the International Astronomical Union, it was first classified as an asteroid before further analysis revealed behavior more akin to a comet, due to its unexpected acceleration. 2. Unusual Shape and Speed Oumuamua is estimated to be up to 400 meters long and unusually elongated—possibly ten times longer than it is wide. Its reddish hue is similar to many distant solar system objects. What stunned astronomers further was its rapid rotation every 7.3 hours and dramatic brightness variations. It was clocked moving at a staggering speed of 196,000 miles per hour (87.3 km/s). 3. A Dry, Mysterious Surface Unlike typical comets, Oumuamua displayed no visible gas or dust, which left astronomers puzzled. Its dry, metallic or rocky surface lacked the comet-like tail typically seen in icy bodies, leading researchers to suggest it had been bombarded by cosmic rays for millions of years during its interstellar journey. 4. Anomalous Acceleration After its closest approach to the Sun on September 9, 2017, Oumuamua began accelerating in a way that couldn't be fully explained by gravity alone. This unexpected movement sparked debate over its true nature—was it a comet, an asteroid, or something entirely different? Though it entered from the direction of the Lyra constellation, its origin remains unknown. 5. Natural Object—or Alien Tech? Some experts, most notably Harvard astronomer Avi Loeb, suggested Oumuamua could be a piece of alien technology, such as a light sail. While this theory captured the public imagination, the dominant scientific consensus holds that it is a natural object—perhaps a fragment of a hydrogen ice body or a 'dark comet' unlike any seen before. 6. A Fleeting Visitor with a Long Legacy After briefly visiting the inner solar system, Oumuamua is now heading toward the constellation Pegasus, having already passed Mars's orbit by late 2017. It's expected to exit the solar system entirely by 2038. Scientists believe such interstellar objects may pass through our solar system roughly once a year, but most remain undetected due to their small size and speed.
