Natural fission and fission stars are an interesting combination. On Earth, the natural fission reactors are found in Gabon. There is nothing used for natural fission reactors that are working for at least thousands of years. And they deliver so little energy that those fission reactors cannot benefit from nuclear energy production. The energy production in those Gabon reactors was something about 100 KW.
The hypothetical iron stars formed the theory of fission stars.
The fission star theory or model is conducted from the Iron stars theory. Those hypothetical stars could be possible at the end of the universe. The energy level in that universe is very low. Stable conditions cause a situation where iron atoms can start cold fusion. The iron stars are extremely dense, and the energy travels out from those stars faster than in the universe where we live.
That causes a situation that iron atoms start to make fusion. The iron stars are colder than today's stars. But otherways temperature in the universe is lower. And the requirement for that thing is that the proton will not divide. The thing that makes an iron star a star is that it is warmer than its environment.
The temperature is a relative substance or variable. If we will put the light bulb on Earth, that thing will not make any impressions. But if we will put the light bulb on dwarf planet Quaor that thing cause a very high rise in temperature. And that causes the vaporization of the gases. Those gases can conduct to the turbine.
The fission stars involve so much radioactive material that their temperature can rise considerably higher than their environment. If the planet's temperature is about 100 degrees higher than zero kelvin that causes vaporization of some gasses. And dividing radioactive isotopes can make this thing real. In this case, we might call this planet a fission star because the star gets its energy from internal nuclear reactions.
Could natural fission explain things like the icy volcanoes of Neptune's Triton moon and the dwarf planet Pluto? There we can see a very interesting ice area on Pluto's pole. That area seems to have fresh ice. And that means there is geological activity on that dwarf planet.
Pluto (https://en.wikipedia.org/wiki/Pluto)
Pluto in detail (https://news.harvard.edu/gazette/story/2015/07/pluto-in-detail/)
Triton (https://en.wikipedia.org/wiki/Triton_(moon))
Icy geysers on Triton (https://www.windows2universe.org/neptune/moons/triton_atmosphere.html)
Quaoar with its rings (https://scitechdaily.com/space-mystery-unexpected-new-ring-system-discovered-in-our-own-solar-system/)
Ceres (https://solarsystem.nasa.gov/planets/dwarf-planets/ceres/overview/)
The mountain on Ceres, tells us there was volcanic activity. (https://www.popularmechanics.com/space/solar-system/a25552/ice-volcanoes-ceres-active/)
Natural fission must rise the temperature on those dwarf planets like Pluto, Triton, and Quaor to the level where the gasses turn liquid. Maybe internal fission keeps the ocean on dwarf planet Ceres open. Once there were icy volcanoes on Ceres, but then the mass of radioactive material turned so low that icy volcanoes were lost.
That thing means that something keeps the ocean on that dwarf planet liquid. Of course, Charon's tidal effect can make that thing possible. But there is also the possibility that internal fission makes that kind of structure.
But there is the possibility that some planets like Pluto could be so-called fission stars. Fission stars are planets that are very much radioactive isotopes. If that fission star is in a zone. Where is a very low temperature, that thing can make some dwarf planets hotter than their environment. If we think.
That natural fission happens on a planet like Pluto, there is the possibility that the geological effect of that thing is very huge even if the energy production is quite low. The gravitation and pressure on Triton and Pluto are very weak. That means the boiling temperature of the liquid is very low.
Maybe natural fission explains the mystery rings of dwarf planet Quaoar's rings.
If there is strong nuclear fission in that dwarf planet, that thing can form a magnetic field. Natural fission must not raise the temperature on the small planet very high. Keeping the gasses liquid is enough, that the iron bites can start to whirl around the magnetic nucleus.
https://astronomy.com/news/2023/02/dwarf-planet-quaoar-hosts-a-ring-that-shouldnt-be-there
https://news.harvard.edu/gazette/story/2015/07/pluto-in-detail/
https://news.arizona.edu/story/ceres-takes-life-ice-volcano-time
https://www.popularmechanics.com/space/solar-system/a25552/ice-volcanoes-ceres-active/
https://solarsystem.nasa.gov/planets/dwarf-planets/ceres/overview/
https://www.windows2universe.org/neptune/moons/triton_atmosphere.html
https://en.wikipedia.org/wiki/50000_Quaoar
https://en.wikipedia.org/wiki/Iron_star
https://en.wikipedia.org/wiki/Natural_nuclear_fission_reactor
https://en.wikipedia.org/wiki/Pluto
https://en.wikipedia.org/wiki/Triton_(moon)
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