starlight and atoms chapter 6. the amazing power of starlight just by analyzing the light received...
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Starlight and Atoms
Chapter 6
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The Amazing Power of StarlightJust by analyzing the light received from a star,
astronomers can retrieve information about a star’s
1. Total energy output
2. Surface temperature
3. Radius
4. Chemical composition
5. Velocity relative to Earth
6. Rotation period
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Light and MatterSpectra of stars are
more complicated than pure black body spectra.
characteristic lines, called absorption lines.
To understand those lines, we
need to understand atomic structure and the
interactions between light and
atoms.
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Atomic Structure• An atom consists of
an atomic nucleus (protons and neutrons) and a cloud of electrons surrounding it.
• Almost all of the mass is contained in the nucleus, while almost all of the space is occupied by the electron cloud.
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If you could fill a teaspoon just with
material as dense as the matter in an atomic
nucleus, it would weigh ~ 2 billion tons!!
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Different Kinds of Atoms• The kind of atom
depends on the number of protons in the nucleus.
Helium 4
Different numbers of neutrons different isotopes
• Most abundant: Hydrogen (H), with one proton (+ 1 electron).
• Next: Helium (He), with 2 protons (and 2 neutrons + 2 el.).
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Electron Orbits• Electron orbits in the electron cloud are restricted to
very specific radii and energies.
r1, E1
r2, E2
r3, E3
• These characteristic electron energies are different for each individual element.
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Atomic Transitions
• An electron can be kicked into a higher orbit when it absorbs a photon with exactly the right energy.
• All other photons pass by the atom unabsorbed.
Eph = E4 – E1
Eph = E3 – E1
(Remember that Eph = h*f)
Wrong energy• The photon is absorbed, and the electron is in an excited state.
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Color and Temperature
Orion
Betelgeuse
Rigel
Stars appear in different colors,
from blue (like Rigel)
via green / yellow (like our sun)
to red (like Betelgeuse).
These colors tell us about the star’s
temperature.
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Black Body Radiation (I)
The light from a star is usually concentrated in a rather narrow
range of wavelengths.
The spectrum of a star’s light is approximately a thermal
spectrum called black body spectrum.
A perfect black body emitter would not reflect any radiation. Thus the name ‘black body’.
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Two Laws of Black Body Radiation
2. The peak of the black body spectrum shifts towards shorter wavelengths when the temperature increases.
Wien’s displacement law:
max ≈ 3,000,000 nm / TK
(where TK is the temperature in Kelvin).
1. The hotter an object is, the more luminous it is.
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The Color Index (I)B band
V bandThe color of a star is measured by comparing its brightness in
two different wavelength bands:
The blue (B) band and the visual (V) band.
We define B-band and V-band magnitudes just as we did before for total magnitudes
(remember: a larger number indicates a fainter star).
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The Color Index (II)
We define the Color Index
B – V(i.e., B magnitude – V magnitude)
The bluer a star appears, the smaller the color index B – V.
The hotter a star is, the smaller its color index B – V.
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Kirchhoff’s Laws of Radiation (I)1. A solid, liquid, or dense gas excited to emit
light will radiate at all wavelengths and thus produce a continuous spectrum.
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Kirchhoff’s Laws of Radiation (II)2. If light comprising a continuous spectrum
passes through a cool, low-density gas, the result will be an absorption spectrum.
Light excites electrons in atoms to higher energy states
Frequencies corresponding to the transition energies are absorbed from the continuous spectrum.
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Kirchhoff’s Laws of Radiation (III)3. A low-density gas excited to emit light will do
so at specific wavelengths and thus produce an emission spectrum.
Light excites electrons in atoms to higher energy states
Transition back to lower states emits light at specific frequencies
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The Spectra of StarsInner, dense layers of a
star produce a continuous (black body) spectrum.
Cooler surface layers absorb light at specific frequencies.
=> Spectra of stars are absorption spectra.
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Most prominent lines in many astronomical objects: Balmer lines
of hydrogen
Lines of Hydrogen
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The Balmer Lines
n = 1
n = 2
n = 4
n = 5n = 3
H H H
The only hydrogen lines in the visible wavelength range.
Transitions from 2nd to higher levels of hydrogen
2nd to 3rd level = H (Balmer alpha line)2nd to 4th level = H (Balmer beta line)
…
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Absorption spectrum dominated by Balmer lines
Modern spectra are usually recorded digitally and represented as plots of
intensity vs. wavelength
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Emission nebula, dominated by the red H line.
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The Balmer ThermometerBalmer line strength is sensitive to temperature:
Almost all hydrogen atoms in the ground state (electrons in the n = 1 orbit) => few transitions from n =
2 => weak Balmer lines
Most hydrogen atoms are ionized => weak Balmer lines
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Measuring the Temperatures of Stars
Comparing line strengths, we can measure a star’s surface temperature!
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Spectral Classification of Stars (I)
Tem
pera
ture
Different types of stars show different characteristic sets of absorption lines.
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Spectral Classification of Stars (II)
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Oh Oh Only
Be Boy, Bad
A An Astronomers
Fine F Forget
Girl/Guy Grade Generally
Kiss Kills Known
Me Me Mnemonics
Mnemonics to remember the spectral sequence:
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Stellar spectra
OB
A
F
G
KM
Surface tem
perature
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The Composition of StarsFrom the relative strength of absorption lines (carefully accounting for their temperature dependence), one can
infer the composition of stars.
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The Doppler Effect
Blue Shift (to higher frequencies)
Red Shift (to lower frequencies)
The light of a moving source is blue/red
shifted by
/0 = vr/c
0 = actual wavelength
emitted by the source
Wavelength change due to
Doppler effect
vr = radial velocity
vr
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Example (I):Earth’s orbital motion around the sun causes a radial velocity towards (or away from) any star.
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Example (II):Take of the H (Balmer alpha) line:
0 = 656 nmAssume, we observe a star’s spectrum
with the H line at = 658 nm. Then, = 2 nm.
We find = 0.003 = 3*10-3
Thus,
vr/c = 0.003, or
vr = 0.003*300,000 km/s = 900 km/s.The line is red shifted, so the star is receding
from us with a radial velocity of 900 km/s.