<p>The elusive 'Planet Nine' does exist, and may be 10 times the mass of the Earth and 20 times away from the Sun than Neptune, NASA scientists say.<br /><br />Planet Nine could turn out to be our solar system's missing 'super Earth' - a planet with a mass higher than the Earth's, but substantially lower than the masses of ice giants Uranus and Neptune.<br /><br />The signs so far are indirect, mainly its gravitational footprints, but that adds up to a compelling case, they said.<br /><br />"There are now five different lines of observational evidence pointing to the existence of Planet Nine," said Konstantin Batygin, a planetary astrophysicist at California Institute of Technology (Caltech) in the US.<br /><br />"If you were to remove this explanation and imagine Planet Nine does not exist, then you generate more problems than you solve. All of a sudden, you have five different puzzles, and you must come up with five different theories to explain them," said Batygin.<br /><br />Six known objects in the distant Kuiper Belt, a region of icy bodies stretching from Neptune outward towards interstellar space, all have elliptical orbits pointing in the same direction, researchers said.<br /><br />However, these orbits also are tilted the same way, about 30 degrees "downward" compared to the pancake-like plane within which the planets orbit the Sun, they said.<br /><br />Computer simulations of the solar system with Planet Nine included show there should be more objects tilted with respect to the solar plane.<br /><br />The tilt would be on the order of 90 degrees, as if the plane of the solar system and these objects formed an "X" when viewed edge-on.<br /><br />Caltech graduate student, Elizabeth Bailey, showed that Planet Nine could have tilted the planets of our solar system during the last 4.5 billion years.<br /><br />In the study published in the Astronomical Journal, researchers wondered why the plane in which the planets orbit is tilted about 6 degrees compared to the Sun's equator.<br /><br />"Over long periods of time, Planet Nine will make the entire solar-system plane precess or wobble, just like a top on a table," Batygin said.<br /><br />The last telltale sign of Planet Nine's presence involves the solar system's contrarians: objects from the Kuiper Belt that orbit in the opposite direction from everything else in the solar system, researchers said.<br /><br />Planet Nine's orbital influence would explain why these bodies from the distant Kuiper Belt end up "polluting" the inner Kuiper Belt, they said.<br />"No other model can explain the weirdness of these high-inclination orbits," Batygin said.<br /><br />"It turns out that Planet Nine provides a natural avenue for their generation. These things have been twisted out of the solar system plane with help from Planet Nine and then scattered inward by Neptune," said Batygin.<br /><br />"The possibility of a new planet is certainly an exciting one for me as a planetary scientist and for all of us," said Jim Green, director of NASA's Planetary Science Division.<br /><br />"This is not, however, the detection or discovery of a new planet," said Green.<br /><br />"What we're seeing is an early prediction based on modelling from limited observations. It's the start of a process that could lead to an exciting result," he said.</p>
<p>The elusive 'Planet Nine' does exist, and may be 10 times the mass of the Earth and 20 times away from the Sun than Neptune, NASA scientists say.<br /><br />Planet Nine could turn out to be our solar system's missing 'super Earth' - a planet with a mass higher than the Earth's, but substantially lower than the masses of ice giants Uranus and Neptune.<br /><br />The signs so far are indirect, mainly its gravitational footprints, but that adds up to a compelling case, they said.<br /><br />"There are now five different lines of observational evidence pointing to the existence of Planet Nine," said Konstantin Batygin, a planetary astrophysicist at California Institute of Technology (Caltech) in the US.<br /><br />"If you were to remove this explanation and imagine Planet Nine does not exist, then you generate more problems than you solve. All of a sudden, you have five different puzzles, and you must come up with five different theories to explain them," said Batygin.<br /><br />Six known objects in the distant Kuiper Belt, a region of icy bodies stretching from Neptune outward towards interstellar space, all have elliptical orbits pointing in the same direction, researchers said.<br /><br />However, these orbits also are tilted the same way, about 30 degrees "downward" compared to the pancake-like plane within which the planets orbit the Sun, they said.<br /><br />Computer simulations of the solar system with Planet Nine included show there should be more objects tilted with respect to the solar plane.<br /><br />The tilt would be on the order of 90 degrees, as if the plane of the solar system and these objects formed an "X" when viewed edge-on.<br /><br />Caltech graduate student, Elizabeth Bailey, showed that Planet Nine could have tilted the planets of our solar system during the last 4.5 billion years.<br /><br />In the study published in the Astronomical Journal, researchers wondered why the plane in which the planets orbit is tilted about 6 degrees compared to the Sun's equator.<br /><br />"Over long periods of time, Planet Nine will make the entire solar-system plane precess or wobble, just like a top on a table," Batygin said.<br /><br />The last telltale sign of Planet Nine's presence involves the solar system's contrarians: objects from the Kuiper Belt that orbit in the opposite direction from everything else in the solar system, researchers said.<br /><br />Planet Nine's orbital influence would explain why these bodies from the distant Kuiper Belt end up "polluting" the inner Kuiper Belt, they said.<br />"No other model can explain the weirdness of these high-inclination orbits," Batygin said.<br /><br />"It turns out that Planet Nine provides a natural avenue for their generation. These things have been twisted out of the solar system plane with help from Planet Nine and then scattered inward by Neptune," said Batygin.<br /><br />"The possibility of a new planet is certainly an exciting one for me as a planetary scientist and for all of us," said Jim Green, director of NASA's Planetary Science Division.<br /><br />"This is not, however, the detection or discovery of a new planet," said Green.<br /><br />"What we're seeing is an early prediction based on modelling from limited observations. It's the start of a process that could lead to an exciting result," he said.</p>