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The thick disk (z_thick = 1000pc) is an older star population with lower density of stars.
The thin disk (z_thin = 350) is a younger star population with a higher density of stars.
Thin/Thick Disks
Thin and thick disks not just determined by scale heights and stellar number densities.
Disk are also distinguished by metal concentrations in stars.
Population I- metal-rich Z~0.02
Population II- metal-poorZ~0.001
Population III- no metalZ~0
Thin/Thick Disks
Population I- metal-rich Stars similar to the Sun
Population II- metal-poorStars that exploded to form Population I stars
Population III- no metalStars that exploded to form Population II stars
Metallicity
Metallicity is a measure of the iron to hydrogen ratio in the atmosphere of a star compared to the Sun.
The older the star, the more negative the value of [Fe/H].
The younger the star, the more positive the value of [Fe/H].
For stars with the same metal abundance as the Sun, [Fe/H]=0.
[Fe/H]≡ log10[((NFe/NH)star)/((NFe/NH))]
Thought Question
Why do orbits of bulge stars bob up and down?
A. They’re stuck to interstellar mediumB. Gravity of disk stars pulls toward diskC. Halo stars knock them back into disk
Why do orbits of bulge stars bob up and down?
A. They’re stuck to interstellar mediumB. Gravity of disk stars pulls toward diskC. Halo stars knock them back into disk
Halo Stars: 0.02-0.2% heavy elements (O, Fe, …), only old stars
Disk Stars: 2% heavy elements, stars of all ages
Halo stars formed first, then stopped
Disk stars formed later, kept forming
Matter inside stars: ~ 0.6%Matter outside stars: ~ 3.8%
What is the galaxy made of?
What’s wrong with these numbers?
Where did all the Matter Go?
The “Missing Matter” caused scientist to hypostasize the existence of Dark Matter
Dark Matter: An undetected form of mass that emits little or no light but whose existence we infer from its gravitational influence
Dark Energy: An unknown form of energy that seems to be the source of a repulsive force causing the expansion of the universe to accelerate
• “Normal” Matter: ~ 4.4%– Normal Matter inside stars: ~ 0.6% – Normal Matter outside stars: ~ 3.8%
• Dark Matter: ~ 25%• Dark Energy ~ 71%
Why do we think it is there?
Our Options
1. Dark matter really exists, and we are observing the effects of its gravitational attraction
2. Something is wrong with our understanding of gravity, causing us to mistakenly infer the existence of dark matter
Our Options
1. Dark matter really exists, and we are observing the effects of its gravitational attraction
2. Something is wrong with our understanding of gravity, causing us to mistakenly infer the existence of dark matter
Because gravity is so well tested, most astronomers prefer option #1