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Stellar Evolution: Low Mass Stars. AST 112. Group by mass:. Low-mass stars: Less than 2 M Sun Intermediate-mass stars: 2-8 M Sun High-mass stars: Greater than 8 M Sun. Low-Mass Stars. So… what exactly do low mass stars do? They get on the Main Sequence and convert H to He.
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Group by mass: • Low-mass stars: Less than 2 MSun • Intermediate-mass stars: 2-8 MSun • High-mass stars: Greater than 8 MSun
Low-Mass Stars • So… what exactly do low mass stars do? • They get on the Main Sequence and convert H to He. • Then they blow up!
Low-Mass Star Evolution • They spend most of their life on the Main Sequence • They then evolve into giants, then white dwarfs
The Main Sequence • Reminder: • During a star’s life on the Main Sequence, it doesn’t move very far on the HR diagram.
Low Mass: Main Sequence • Steady burning of hydrogen • Nuclear reactions balance gravity • Self-regulating process • Reactions occur via proton-proton chain • Somewhat inefficient compared to other reactions
Out of Hydrogen • Eventually, the core runs out of hydrogen • Still plenty in outer layers, but fusion not happening there • Gravity causes the core to collapse on itself
Sub-Giant Phase • The outer layers actually expand! • Collapsing core releases so much heat that outer layers expand and cool • This is the Sub-Giant Phase
Red Giant Phase • Core continues to shrink • Surrounding hydrogen shrinks along with it • A shell of hydrogen surrounding the core ignites (begins nuclear fusion)
Red Giant Phase • Very low mass stars can stop here • Leave behind inert helium cores • Helium white dwarfs
Red Giant Phase • The burning H shell causes its luminosity to increase into the Red Giant phase • Star expands, almost maintains temperature • Luminosity goes way up
H-Shell Burning • The burning H-shell “rains helium” onto the inert helium core • Helium nucleus: 2 + charges, harder to fuse than hydrogen • Core continues to contract. Reaches 200,000,000 oF
Helium Flash • Helium core eventually ignites! • This is the end of the Red Giant Phase • 3 helium nuclei fuse into 1 carbon nucleus
Helium Burning • He core and H shell expand, cool • Outer star layers contract a lot, heat • Color moves from red to yellow (down and left)
Low-Mass Laboratory: Globular Clusters • Globular clusters are some of the oldest objects in the Universe • Population of blue stars? • Population of red stars? • Its stars formed at the same time
Low-Mass Laboratory: Globular Clusters • Its high mass stars have all died • We see lots of low mass stars in all stages of evolution, sorted by time!
Population of Low Mass Stars • This observationally-obtained HR diagram agrees with everything said thus far
Unrelated Mystery • Globular clusters are old; blue stars gone • There is no star formation • Why are there blue stars?
On Its Way Out • Helium gets fused into carbon for 100 million years (Sun-sized star) • Core runs out of helium, collapses • 1,200,000,000 oF required to fuse carbon • Low mass stars can’t do it.
On Its Way Out • A helium shell ignites, star expands • A burning hydrogen shell surrounds the helium shell • Now double-shell burning giant • Swells to larger than red giant phase
Death of Low Mass Stars • Helium reactions never stabilize • They happen in bursts every few thousand years • Called thermal pulses • Star is swollen, doesn’t hold onto outer layers • Combined with thermal pulses, everything but the core gets blasted out into space
Death of Low Mass Stars • Results in a planetary nebula • Has nothing to do with a planet!
Death of Low Mass Stars • Exposed stellar core is leftover • White Dwarf • A sphere of carbon the size of Earth
Death of Low Mass Stars This explains everything up to and includingcarbon. That’s six elements of the periodic table.Where do the other 100+ elements come from?
The Fate of Earth • The gradual brightening of the Sun will evaporate the oceans within 3-4 billion years • Will turn Earth into Venus • Prior to helium flash, Earth will be at 2000 oF • Titan might feel like Earth does now
The Fate of Earth • The Sun will shrink after the helium flash • 100 million years of relief • When it turns into a double-shell burning star: • Outer layers will swell to Earth’s orbit • Will eject outer layers • Earth will be “charred and dark”, if it’s even still around