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Transcript
The Milky Way
More than just a candy bar.
15
15
Goals
•
•
•
•
Structure of our Galaxy.
Its size and shape.
How do stars and things move through it?
The Galactic Center.
15
The Milky Way
•
•
•
•
•
•
•
•
Stars
Dust
Gaseous Nebulae
Open Clusters
Globular Clusters
Pulsars
Black Holes
How do they all fit together to make our galaxy?
15
Optical emission from stars and nebulae
15
Near-Infrared emission from stars – copyright E. L. Wright and COBE
15
Far-Infrared dust emission – copyright E. L. Wright and COBE
15
Radio emission from neutral hydrogen – copyright J. Dickey
15
X-ray emission from hot gas – copyright S. Digel and ROSAT
15
Gamma-ray emission from pulsars and black holes – copyright NASA
15
Where are We?
• Not at the center of the
Milky Way.
• Where is the center?
• Globular Clusters point
the way.
M10 – copyright Credner and Kohle
15
You Are Here
15
Near-Infrared stellar emission – copyright E. L. Wright and COBE
15
Galactic Distances
• How do we know the distance to stars and
clusters in our galaxy?
• Stellar parallax:
– Parallax of nearby stars relative to background stars.
– Good out to ~500 pc.
• What about the background stars?
• How far are they?
15
Standard Candles
•
•
•
•
•
“Standard Candles”
If we know how bright something looks,
And we know how bright it should be,
Result  Distance
We do this everyday with size.
15
Spectroscopic Parallax
• If you know how luminous a star REALLY is and how
bright it looks from Earth, you can determine how far
away it must be to look that faint.
• For any star in the sky, we KNOW:
– Apparent Magnitude (m)
– Spectral Type (O, B, A, F, G, K, M)
– Luminosity Class (Main Sequence, Giant, etc…). These are
denoted by a roman numeral (V, III, I,…).
• Combine spectral type and luminosity class to get
absolute magnitude (M).
• m – M give you distance.
15
Example
Distance = 1000 pc
• Deneb is A2Ia star
m = 1.25
A2  Blue star
Ia  Supergiant
M = -8.8
 distance
m  M  5log 10 
 10pc
15



Standard Candles
• Other “Standard Candles”
• Variable stars.
• Stars that change in luminosity.
– RR Lyra stars
– Cepheid variables
15
Variable Stars
• For RR Lyrae stars:
– Average luminosity is a
standard candle
– Always ~ 100 x Sun
• For Cepheid variables:
– Pulsation period is
proportional to average
luminosity
– Observe the period 
find the luminosity
• Good to 15 Mpc!
15
30 kpc
8.5kpc
500 pc
15
Variables in Clusters
15
Rotation …
• Objects in the disk,
rotate in the disk.
– Nebulae
– Open clusters
– Young stars
• Objects in the
halo, swarm in a
halo.
– Old stars
– Globular clusters
15
The Sun’s “age”
R
V
• We define our age
by trips around the
Sun.
• How many trips of
Sun around Milky
Way?
R = 8.5 kpc
V = 220km/s
P = 2.5x108 yrs
• 20 trips.
15
The Heart of the Galaxy
• Because of all the
dust in the Galaxy,
we can’t see its
center in visible
light.
• Can use IR and
radio to pierce the
dust.
15
200 pc
5 pc
Sagittarius A* - Sgr A*
15
Supermassive Black Hole
• Infrared images of stars in the
Galactic Center over 8 years.
• The “+” is the radio source
Sgr A*
• Conclusion: Must be over
one million solar masses
within less than 1/5 of a light
year!
• Event Horizon ~ 0.02 AU!
• Probably in the centers of all
spiral galaxies.
Copyright Eckart & Genzel
15
Homework #15
• Read: Bennett Ch20.1 - 20.3:
• Do Ch20:
– Problems 3, 12
15