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Pluto is usually thought to be a distant, cold, lifeless planet, but in October 2016 the New Horizons probe made a stunning new discovery over Pluto, suggesting that the planet may be in the conditions that gave birth to life, according to the physics website.
New Horizons probe has discovered the presence of water-ice mountains on Pluto's surface, most likely liquid oceans beneath it.
early studies suggest that Pluto has complex chemicals, most likely pre-origin processes of life beneath pluto's surface.
In addition, Pluto's complex layer of organic mist, the ice-ice mountains due to unknown geological action, the presence of organic matter on the surface, and the liquid ocean beneath it all indicate that the planet is more alive and alive than previously thought.
s factors are directly related to astrobiology, and Pluto has organic matter, water and energy," said Michael Summers, a planetary scientist who specializes in the structure and evolution of planetary atmospheres.
is understood to have co-authored two studies: New Horizons to reveal the photochemical processes in Pluto's atmosphere and New Horizons to observe the particle physics constraints of Pluto's photochemical mist.
Pluto, like Titan, has a thin atmosphere and mist can reach up to 200 kilometers above the surface, more than 10 times the height previously expected by scientists.
NASA's Cassini probe has discovered some strange phenomena in titan's ionosphere, about 500-600 kilometers from the surface, and by calculating models, scientists have discovered that Titan's photochemical condensation process breaks down methane through ultraviolet sunlight, triggering hydrocarbon formation.
: "The ionosphere forms a mist, where charged particles (electrons and ions) attach to hydrocarbons, making them bonded more closely.
they become very stable, and as electrons pass through the atmosphere, they bind tightly to other particles, and the larger the electrons, the faster they pass through the atmosphere.
observations have found that the mist particles in Titan's atmosphere are larger and larger than Pluto's.
" Pluto, like Titan, has methane and nitrogen in its atmosphere as a trace component, unlike Titan, which has an atmospheric pressure of only 10 million millibars, compared with 1.5 bar.
the atmospheric pressure difference will affect the shape of the two planets' mist particles, which take longer to land on the surface and eventually become spheres, while Pluto's mist particles land faster, forming a fragmented structure.
Samos points out that it is likely that Pluto could form hydrocarbons and arbonds (another organic molecule) and even more pre-life chemicals, which could create complex pre-life molecules, such as hydrogen cyanide, which may be an important molecule in the origin chemistry of life.
The slight redness of Pluto's surface is due to the presence of Soering( the sticky solid matter in interstellar space), and Samos calculates that the sorin layer on Pluto's surface is about 10-30 meters thick, with more organic matter per square meter than earth's forests, and that sorin matter changes its chemical composition as radiation bombards Pluto's surface.
interestingly, the micro-red matter is also present in Pluto's ice volcano, suggesting that the dwarf planet has potential underground oceans like Titan, Titan and Jupiter.
source: Tencent Space.