Pluto-like planet discovered: How big is it and how far is it from Earth?

Researchers believe that 2017 OF201's highly eccentric orbit points to a chaotic origin, possibly caused by a gravitational push from one of the solar system's gas giants in its early days, sending the object as far as the distant Oort Cloud.
Pluto-like planet discovered: How big is it and how far is it from Earth?
Tired of too many ads?
Remove Ads
Pluto Like Planet With an Extraordinary Orbit
A Decade's Largest Solar System Discovery
Tired of too many ads?
Remove Ads
Possibly Ejected from the Oort Cloud
Solar System May Host Hundreds More
A Renewed Push for Outer Solar System Exploration
FAQs
What is 2017 OF201?
Tired of too many ads?
Remove Ads
The object is estimated to be around 700 kilometers (435 miles) in diameter, which is approximately half the size of Pluto.
In a significant breakthrough, astronomers have detected a Pluto-like planet situated far beyond the known boundaries of the solar system. Identified as 2017 OF201 , the icy celestial body may represent the largest object discovered in the outer solar system in over a decade, reigniting interest in the unexplored expanses beyond Neptune.Classified as an extreme trans-Neptunian object (TNO), 2017 OF201 is believed to be around 700 kilometers (435 miles) in diameter—about half the size of Pluto. Though smaller than the famous dwarf planet, its location and orbital characteristics have startled researchers. The object's aphelion, or farthest distance from the Sun, is more than 1,600 times Earth's orbital distance, while its perihelion, the nearest point to the Sun, is roughly 44.5 times that of Earth—comparable to Pluto's orbital reach.'This suggests a highly elliptical and unusual orbit,' noted Dr. Sihao Cheng from the Institute for Advanced Study, Princeton, which led the discovery, as mentioned in a report by Forbes.The planet takes approximately 25,000 years to complete one revolution around the Sun, hinting at a dramatic cosmic history.Discovered using a combination of data from the Dark Energy Camera in Chile and the Canada-France-Hawaii Telescope, the celestial body was captured over seven years and 19 different exposures. Astronomers suggest that if the object's size is verified via radio telescopes, it will earn the title of the largest newly discovered planetary body in the outer solar system since the early 2010s.2017 OF201 joins a short but significant list of massive TNOs, which includes Eris, Pluto, Haumea, Makemake, and Gonggong. It further challenges previous assumptions about the sparsity of large bodies in the far-flung regions of the solar system.According to the researchers, the extreme orbit of 2017 OF201 suggests a tumultuous past. It may have been gravitationally ejected by one of the gas giants early in solar system history, potentially reaching the Oort Cloud—a distant shell believed to host countless icy bodies—before being pulled back inward.'This is a classic case of a planetary body that didn't just form where it now resides. Its path tells the story of encounters, ejections, and returns,' said Dr. Yifan Yang, a collaborator on the study, as mentioned in a report by Forbes..The Kuiper Belt , the donut-shaped region beyond Neptune, was once thought to be relatively empty. However, the discovery of 2017 OF201 raises fresh questions about what lies beyond.'The fact that 2017 OF201 was detectable while spending just 1% of its orbital period near the inner solar system implies that there could be hundreds of similar-sized objects we simply haven't detected yet,' Dr. Cheng added.This discovery provides renewed impetus for studying the Pluto-like planet category and the solar system's unexplored boundaries. It may also guide future missions akin to NASA's New Horizons, which flew past Pluto in 2015 before entering deeper Kuiper Belt territory.Astronomers emphasize that while humanity has explored deep space with cutting-edge instruments, the very edges of our own cosmic neighborhood remain largely uncharted territory.2017 OF201 is an icy, Pluto-like celestial body classified as an extreme trans-Neptunian object (TNO). It was recently discovered in the far outer regions of the solar system and could be the largest such object found in over a decade.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

The Hindu

5 days ago

• The Hindu

New flowering plant species discovered in Aravali hills landscape near Jaipur

A new flowering plant species with unusual morphological characteristics has been discovered in the rocky and semi-arid landscape of Aravali hills near Jaipur, shedding light on the region's hidden biodiversity. Classified as Portulaca bharat, the plant adds to the list of Indian endemics. With no other populations currently known, Portulaca bharat has been provisionally assessed as 'data deficient' under the International Union for Conservation of Nature Red List guidelines. The plant's narrow endemism and specific habitat requirements make it highly vulnerable to habitat degradation and climate change. The plant was first spotted by researcher Nishant Chauhan, a committee member of the Satpura Biodiversity Conservation Society (SBCS), who noticed a unique Portulaca-like succulent growing from the rock crevice on the dry and rocky hill slopes near the historic Galtaji temple on the outskirts of Jaipur. Mr. Chauhan collected a few live specimens, which were subsequently cultivated under the controlled conditions in Himachal Pradesh's Hamirpur and later in Lucknow to monitor growth patterns, flowering, and morphological stability across environments. 'After a detailed study and comparison with known species, the plant has been confirmed as a new species to science,' Mr. Chauhan told The Hindu on Monday. The species has been described and published in the latest issue of international scientific journal, Phytotaxa, after a thorough examination of the herbarium collections at the Botanical Survey of India (BSI) and other institutions. The genus Portulaca currently comprises about 153 species worldwide, primarily found in tropical and subtropical regions. These succulent plants are known for their toughness, water-storing tissues, and adaptation to extreme environments. In India, 11 species are currently known, including four endemics, mostly distributed in dry and semi-arid habitats. Mr. Chauhan, whose work focuses on the documentation and conservation of threatened plant species, said Portulaca bharat is currently only known from a single location in the Galtaji hills. 'Only 10 individuals of this species were found in the wild. The discovery calls for enhanced field surveys, habitat protection, and ex situ conservation efforts, especially in neglected dry zones like the Aravalis,' he said. The Aravali Range, one of Earth's oldest geological formations, plays host to numerous micro-endemic species and ecologically significant habitats. The discovery of Portulaca bharat from this underexplored and dry deciduous ecosystem has indicated to the hidden biodiversity of the Aravalis and underlined the urgency of protecting it. Portulaca bharat has opposite and slightly conclave leaves and pale-yellow flowers becoming creamish-white towards apex, with the presence of glandular hairs on stamen filaments and thick roots. 'Naming the plant Portulaca bharat after the country serves as a symbolic reminder of India's rich and still-unfolding natural heritage. This species adds to the list of Indian endemics and opens up new avenues for studies in phytogeography, ecology and evolutionary biology,' Mr. Chauhan said. Mr. Chauhan's colleagues in the research team were Amber Srivastava, research associate at BSI, and Sudhanshu Shekhar Dash and Sushil Kumar Singh, both of whom are scientists with BSI in Kolkata and Dehradun, respectively. Mr. Chauhan, hailing from Shimla, earlier pioneered the first ex situ introduction of the critically endangered plant Commiphora wightii in Himachal Pradesh in 2024 and also rediscovered two plant species previously presumed extinct.

NDTV

5 days ago

• NDTV

Astronomers Discover "New Kind Of Climate" On Pluto

Pluto, long reclassified as a dwarf planet, continues to surprise scientists. Astronomers recently detected new features in its high-altitude haze - revealing more than previously known. Once thought to be a frozen, featureless world, Pluto was found to have icy plains and rugged mountains when NASA's New Horizons spacecraft flew past it in 2015. Now, researchers have studied a bluish and multi-layered haze around Pluto, which stretched more than 300 kilometres above the surface. The astronomers noted that the haze is not just a visual oddity, but something that controls the dwarf planet's climate. In the study titled, Evidence of haze control of Pluto's atmospheric heat balance from JWST/MIRI thermal light curves, astronomers revealed that they detected and measured the thermal emission of Pluto's haze. They said that the "observed fluxes indicate that Pluto's haze is composed of Titan-like organic particles as well as hydrocarbon and nitrile ices and demonstrate that the haze largely controls Pluto's atmospheric balance". Pluto's temperatures, climate and general circulation should therefore be substantially affected by the haze across seasons, the study said. "This is unique in the solar system. It's a new kind of climate, let's say," Tanguy Bertrand, who is an astronomer at the Paris Observatory in France, who led the analysis, told Live Science. The findings were published on June 2 in the journal Nature Astronomy. Mysteries of Pluto Pluto's reclassification as a dwarf planet in 2006 sparked debate. Pluto's surface composition, including nitrogen ice and tholins, is still not fully understood. Pluto has a thin atmosphere which freezes and thaws as it orbits the Sun. Pluto's five known moons, including Charon, Nix, Hydra, Kerberos and Styx, pose questions about formation and evolution.

Economic Times

6 days ago

• Economic Times

Pluto-like planet discovered: How big is it and how far is it from Earth?

Researchers believe that 2017 OF201's highly eccentric orbit points to a chaotic origin, possibly caused by a gravitational push from one of the solar system's gas giants in its early days, sending the object as far as the distant Oort Cloud. Pluto-like planet discovered: How big is it and how far is it from Earth? Tired of too many ads? Remove Ads Pluto Like Planet With an Extraordinary Orbit A Decade's Largest Solar System Discovery Tired of too many ads? Remove Ads Possibly Ejected from the Oort Cloud Solar System May Host Hundreds More A Renewed Push for Outer Solar System Exploration FAQs What is 2017 OF201? Tired of too many ads? Remove Ads The object is estimated to be around 700 kilometers (435 miles) in diameter, which is approximately half the size of Pluto. In a significant breakthrough, astronomers have detected a Pluto-like planet situated far beyond the known boundaries of the solar system. Identified as 2017 OF201 , the icy celestial body may represent the largest object discovered in the outer solar system in over a decade, reigniting interest in the unexplored expanses beyond as an extreme trans-Neptunian object (TNO), 2017 OF201 is believed to be around 700 kilometers (435 miles) in diameter—about half the size of Pluto. Though smaller than the famous dwarf planet, its location and orbital characteristics have startled researchers. The object's aphelion, or farthest distance from the Sun, is more than 1,600 times Earth's orbital distance, while its perihelion, the nearest point to the Sun, is roughly 44.5 times that of Earth—comparable to Pluto's orbital reach.'This suggests a highly elliptical and unusual orbit,' noted Dr. Sihao Cheng from the Institute for Advanced Study, Princeton, which led the discovery, as mentioned in a report by planet takes approximately 25,000 years to complete one revolution around the Sun, hinting at a dramatic cosmic using a combination of data from the Dark Energy Camera in Chile and the Canada-France-Hawaii Telescope, the celestial body was captured over seven years and 19 different exposures. Astronomers suggest that if the object's size is verified via radio telescopes, it will earn the title of the largest newly discovered planetary body in the outer solar system since the early 2010s.2017 OF201 joins a short but significant list of massive TNOs, which includes Eris, Pluto, Haumea, Makemake, and Gonggong. It further challenges previous assumptions about the sparsity of large bodies in the far-flung regions of the solar to the researchers, the extreme orbit of 2017 OF201 suggests a tumultuous past. It may have been gravitationally ejected by one of the gas giants early in solar system history, potentially reaching the Oort Cloud—a distant shell believed to host countless icy bodies—before being pulled back inward.'This is a classic case of a planetary body that didn't just form where it now resides. Its path tells the story of encounters, ejections, and returns,' said Dr. Yifan Yang, a collaborator on the study, as mentioned in a report by Kuiper Belt , the donut-shaped region beyond Neptune, was once thought to be relatively empty. However, the discovery of 2017 OF201 raises fresh questions about what lies beyond.'The fact that 2017 OF201 was detectable while spending just 1% of its orbital period near the inner solar system implies that there could be hundreds of similar-sized objects we simply haven't detected yet,' Dr. Cheng discovery provides renewed impetus for studying the Pluto-like planet category and the solar system's unexplored boundaries. It may also guide future missions akin to NASA's New Horizons, which flew past Pluto in 2015 before entering deeper Kuiper Belt emphasize that while humanity has explored deep space with cutting-edge instruments, the very edges of our own cosmic neighborhood remain largely uncharted territory.2017 OF201 is an icy, Pluto-like celestial body classified as an extreme trans-Neptunian object (TNO). It was recently discovered in the far outer regions of the solar system and could be the largest such object found in over a decade.