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What about the deaths of the smallest stars in the universe?
We all know about the life and death processes of stars from about the
mass of the Sun on upto super-sized blue stars. The end results are white dwarfs, neutron stars, and blackholes. But there are a class of extremely tiny stars, the smallest red dwarfs, which I can't imagine go through the same process as even our Sun. The reason I believe that is because stars like the Sun are not convective down at their cores, the main process for heat transfer at the core is through radiation, but red dwarf stars are mainly convective, even inside their cores. As such, these red dwarfs would be very efficient at converting most of their store of hydrogen into helium, unlike the more massive stars which only convert the hydrogen inside their physically distinct cores. So these red dwarfs will last hundreds of billions and trillions of years at the main sequence, doing exactly what they are doing right now. So what happens when their hydrogen stars running out finally? Do they go through the same phases as stars like the Sun do? Do they become red giants, blow off their outer layers into planetary nebulae, with a white dwarf in the middle? Or do they just remain at the main sequence, until their hydrogen runs out, and they go straight into a helium white dwarf stage without going red giant? I mean this stuff isn't expected to happen at all in the current universe, it's not old enough yet, but has anyone actually done a theoretical study of this? Yousuf Khan |
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What about the deaths of the smallest stars in the universe?
In article ,
Yousuf Khan writes: .... extremely tiny stars, the smallest red dwarfs, which I can't imagine go through the same process as even our Sun. ... red dwarf stars are mainly convective, even inside their cores. As such, these red dwarfs would be very efficient at converting most of their store of hydrogen into helium, unlike the more massive stars which only convert the hydrogen inside their physically distinct cores. This looks correct to me. I _think_ it was discussed in a stellar interiors course I took, but that was a long time ago. So these red dwarfs will last hundreds of billions and trillions of years at the main sequence, doing exactly what they are doing right now. Far longer than the Sun for sure. Let's see... maybe 1/1000 of a solar luminosity and 1/10 of the mass so 100 times the lifetime. Put in another factor of two for burning a greater fraction of the hydrogen, so yes, a few trillion years looks right. So what happens when their hydrogen stars running out finally? Do they go through the same phases as stars like the Sun do? I'm sure it has been studied, but I don't know the answer. My naive guess would be they just slowly contract and cool, becoming white dwarfs, once the hydrogen runs out. I'd not be surprised at all to be wrong, though. A good source might be the book _Extreme Stars_ by James Kaler. At least it has promising chapter titles, and he's a good writer and knows the subject. -- Help keep our newsgroup healthy; please don't feed the trolls. Steve Willner Phone 617-495-7123 Cambridge, MA 02138 USA |
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What about the deaths of the smallest stars in the universe?
On 30/10/2014 5:48 PM, Steve Willner wrote:
So what happens when their hydrogen stars running out finally? Do they go through the same phases as stars like the Sun do? I'm sure it has been studied, but I don't know the answer. My naive guess would be they just slowly contract and cool, becoming white dwarfs, once the hydrogen runs out. I'd not be surprised at all to be wrong, though. A good source might be the book _Extreme Stars_ by James Kaler. At least it has promising chapter titles, and he's a good writer and knows the subject. Interesting. I'll check it out. Yousuf Khan |
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