Researchers have recently uncovered compelling evidence supporting the existence of Planet 9 in the outer regions of our solar system. The evidence stems from a study of Trans-Neptunian Objects (TNOs) beyond Neptune, which revealed that dynamically stable objects like Sedna-type objects exhibit irregular trajectories when crossing Neptune’s orbit.
A team led by Konstantin Batygin from the California Institute of Technology conducted a recent study published on arXiv, focusing on long-period objects with irregular trajectories that cross Neptune’s orbit. The team explored two possible scenarios to explain their stability: interactions between the galactic tide and Neptune’s gravitational influence or dynamics induced by the hypothetical Planet 9.
After conducting detailed calculations and astrophysical simulations, Batygin and his team found that the scenario involving Planet 9 results in a flat distribution of perihelion distances for the objects crossing Neptune, while the model without Planet 9 shows a peaked distribution around 30 AU. After adjusting for observational bias, the data strongly supports the existence of Planet 9 at a 5 sigma level of confidence on a scale of 6 AU. This new evidence provides some of the strongest statistical support yet for the presence of Planet 9 in our solar system.
While we do not yet know the exact location of Planet 9 in our sky, researchers like Batygin are optimistic about future observatories such as Vera Rubin helping locate it. However, there is no guarantee that it will be detected. Nevertheless, this latest evidence has bolstered our case for understanding more about this mysterious planet and its role in shaping our solar system.