Among the many mysteries that reach far into our solar system is, well, mysterious, the extraordinary egg-shaped path of a dwarf planet called 90377 Sedna.
Its orbit is 11,400 years, one of the longest ever Solar Systemtakes the dwarf planet to seven billion miles (11.3 billion km) from the Sun, then escorts it out of the solar system and passes through the Kuiper Belt to 87 billion miles (140 billion km), finally taking it inside a loose envelope of icy bodies known as… Oort cloud. Since Sedna’s discovery in 2003, astronomers have struggled to explain how such a world could form in a seemingly empty region of Earth. spaceAs it is very far from being affected by the giant planets in the solar system and even… Milky Way Itself.
Now, a new study suggests that an as-yet-undiscovered Earth-like planet hovering in that region could deviate from the orbits of Sedna and a handful of similar trans-Neptunian objects (TNOs), which are countless icy bodies orbiting it. the sun Over huge distances. Many TNO objects have strangely tilted, egg-shaped orbits, perhaps because they are being dragged by a hidden planet, astronomers say.
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Two Japanese researchers used computer simulations to analyze the effects of such an undiscovered planet on TNOs. That simulation, which included the evolutions of several real and model TNOs in the farthest glacial region, is known as Kuiper beltIt produced the extreme orbits observed for Sedna and other TNO objects.
Astronomers say such a planet would be between 1.5 and three times the size of Earth and would be located between 23 billion miles (37 billion kilometers) to 46 billion miles (74 billion kilometers) from the sun.
βIt is plausible that a primitive planetary body could survive in the distant Kuiper Belt, as many such objects existed in the early solar system,β the researchers wrote in the new study.
Quest to find hidden worlds
Searching for planets lurking at the icy edges of our solar system is not a new concept.
What’s called The ninth planeta world ten times larger than LandIt is thought to be responsible for at least five strange features in the solar system, including the strangely tilted orbits of a few Kuiper Belt objects. This theoretical celestial body has captured the attention of many, but it has not yet been discovered. But research suggests that if Planet Nine is out there, it could be located somewhere between 37 billion miles (59 billion kilometers) to 74 billion miles (119 billion kilometers) from the Sun.
Although the possibility of the existence of Planet Nine has gained great interest from research groups around the world, the theory has also been controversial. Some astronomers argue that the highly eccentric orbits of TNOs, for which the presence of Planet Nine was deemed necessary, could have occurred without the hidden planet.
In 2021, A.J Independent study In fact, the team claimed that the data used by the team behind the first discovery paper that theorized Planet Nine was biased, concluding that there was a very low chance that such a planet existed.
Compared to Planet Nine, the newly hypothesized planet β dubbed a Kuiper Belt Planet (KBP) β would be much closer and more influential on the orbits of Kuiper Belt objects, especially those beyond 4 billion miles (7 billion kilometers), according to the new study. .
It is worth noting that KBP has not been observed directly or indirectly yet. If KBP orbits within 34 billion miles (54 billion kilometers), the authors say there is a 90% chance of spotting it in the sky.
However, more information about the structure of objects at the edges of the Kuiper Belt is needed to reveal or rule out the presence of the KBP.
This research is described in A paper Published August 25 in The Astronomical Journal.
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