These items are not stars. They are not enough planets. And it makes it particularly difficult to observe it. But the James-Web space telescope has just exposed one of their secrets.
Flame Nebula is found in about 1,400 light years from our land. He is known AstronomyAstronomy One million years ago to create stars. It’s very recent. But the James-WebSpace Telescope (JWST) was done to go there. They were not young stars. No stars, by the way. There is no planet. The mysterious things that are a bit between the two. Like the stars, the little things for their nucleus that are capable of integration hydrogen. Things that are huge and isolation to enter the planet category.
Dwarf of Flame Nebula’s Brown
These items, astronomers call them brown dwarf. And the Hubble Space Telescope has now been tracking them for decades. They are a failed, cold and dark stars. So it is difficult to observe. But at the beginning of his life, he is relatively shiny. In any case, it is enough to identify some candidates for the Hubble Space telescope who deserved to be there. The James-Web space telescope eventually granted permission. To catch the shine InfluentialInfluential Released by the hidden people in the heart of NebulaNebula Of the flame
Researchers have the limit of what is expected to determine M’sM’s The lowest for BrownBrown. This theory gave a range of large one to ten times JinnJinn. And the data returned by JWST confirms that our large shining planet’s large -scale ten times are numerous in the brown dwarf flame. It is five times higher. But there are still something. On the other hand, Jupiter’s mass becomes three times more rare. And astronomers may not really witness the large-scale brown dwarf of our largest planet in our solar system, though the sensitivity of the James-Web space telescope should allow them to remove items up to half of the Jupiter.
Distinguish the stars from the planets
Astronomers who express in assumptions The letters of the astronomical journalSo, that is, the low -range limit for the dwarf can be between two to three times the massive Jupiter. But to ensure, they will continue to study the flame nebulla for at least five years. Because “The planet and what is very rare -must be overwhelmed between the dwarf dwarf”. And that is their job “Determine which one else is”.
