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Comet Pan-Starrs
12 March 2013
La Palma
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AST101
And the winner is… Gravity
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Stars are the result of the delicate balance between
– Gravity, and– Thermal pressure
Nuclear fusion acts as a thermostat to regulate the balance
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Stable Equilibria
• Planets: compression strength of rock• Brown dwarfs: Degenerate electron
pressure• Low mass stars: H fusion• Intermediate mass stars: H fusion; He
fusion• High mass stars: H fusion; He fusion;
+ more
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Endpoints. I.
Stars like the Sun (up to 8 solar masses) have enough gravitational pressure to get core temperatures high enough
(about 108K) to fuse4He to 12C and 16O.
The result is a CO white dwarf
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High Mass Stars
• Spectral types O and B
• Masses up to ~ 120 M
• Luminosities up to ~106 L
• Radii up to ~100 R
• What sets the upper mass limit?
Radiation Pressure (L) exceeds gravity (M/R2) for massive stars
Because L ~ M3, g ~ 1/M
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Core Temperatures
• Increased gravitational pressure higher Tc
• Higher Tc larger velocities
• Larger velocities overcome larger electric repulsion (~atomic number2)
• Further nuclear reactions can occur
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Alpha capture
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Onion skin model
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Binding Energy
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Unstable Stars
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Endpoints. II.
Fusion reactions up to Fe release energy
When the Fe core forms:
•Tc ~ 109 K
•M > 1.4 M
Degeneracy pressure fails to support the star
The upper mass limit for a white dwarf (a star supported by degenerate electrons) is 1.42 M.
This is the Chandrasekhar limit
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Beyond White Dwarfs
• The high mass core shrinks under gravity.• Temperature increases• Fe disintegrates into protons and neutrons• Protons and electrons combine to form neutrons• This takes heat out of the star• Without pressure support the core collapses• Gravitational potential energy is converted to heat,
and the outer part of the star is ejected• The core may stabilize as a neutron star
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Supernovae
Chaco Canyon NM
Petroglyph thought to show Crab Supernova,
4 July 1054
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SupernovaeIn a supernova, the entire gravitational potential energy of the star is released in a few milliseconds
The outer envelope is ejected at high velocities (10,000 - 20,000 km/s).
1% of the energy comes out as light (1051 ergs); 99% comes out as neutrinos
A supernova can appear as bright as an entire galaxy.
The star is destroyed
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Historical Supernovae
• Crab. July 4, 1054. Seen in Asia and America• Tycho’s supernova. 1572• Kepler’s supernova. 1604• S Andromedae (in M31). 1885• SN 1987A (in LMC). 1987
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SN 1987A
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The Debris of Stars• Supernovae create
elements up to Fe via nuclear fusion
• The high flux of neutrons builds up n-rich isotopes of all elements (the r-process)
• n-rich isotopes decay by β-decay to create stable isotope.
• All known elements can be made this way.
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Supernova Remnants
Crab
(M1)
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Supernova Remnants
Tycho
(X-ray image)
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Supernova Remnants
Kepler
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Supernova Remnants
SN 1987A
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Old Supernova Remnants
Cygnus Loop
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Types of Supernovae
There are 2 main ways to get a stellar core more massive than 1.4 solar masses
•Massive stars (M>8M) make large cores– Massive star (core collapse) supernovae are Type II
•Adding mass to a 1.4M white dwarf– White Dwarf supernovae are Type Ia
(there are other types)
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Type II Supernovae
• A wide variety of characteristics
• Core collapses into a compact object– Neutron star– Black hole
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Neutron Stars• Supported by pressure from
degenerate neutrons.
• Since neutrons are 2000 times more massive than electrons, the neutron star is ~2000 times smaller
• Densities exceed nuclear density
• Mass limit about 2.5-3 M
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Neutron Stars
Concept introduced by:
•Baade & Zwicky (1934)•Zwicky (1938) •Oppenheimer & Serber(1938)
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Do Neutron Stars Exist?
The first pulsar, PSR B1919+21, was discovered in 1967 by Jocelyn Bell Burnell.
The pulse period is 1.337 seconds.
The source?• Extraterrestrials (LGM-1)?• Something else?
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The Crab Pulsar
OpticalX-rays
P=0.033 seconds
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Pulsars
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Evidence that PSRs are NSThe Crab Nebula pulsar has a period of 0.033 seconds(shortest known pulsar period is ~1 msec)
Short periods can arise from:•Rotation: gravitational breakup occurs at
Pmin ~ √(r3/GM). P=0.033 s ρ~1011 gm/cm3.
•Vibration: ιν~√(Gρ)30 Hz ρ~5x1011 gm/cm3.
•Orbital motion:M~1M and P=0.033 s a=150 km, or ρ~5x1011 gm/cm3.
Stars have ρ~1 gm/cm3; WDs have ρ~ 106 gm/cm3
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Listening to Pulsars
• PSR B0329+54: A typical, normal pulsar. Period = 0.714519 sec, i.e. ~1.40 rotations/sec.
• PSR B0833-45, The Vela Pulsar: center of the Vela SNR, ~10,000 years old. P = 89 msec; ~ 11/sec.
• PSR B0531+21, The Crab Pulsar: The youngest known pulsar (957 yrs) ; the center of the Crab Nebula. P = 33 msec; 30/sec.
• PSR J0437-4715: a millisecond pulsar, an old pulsar spun up by accretion of material from a binary companion star. P=5.7 msec; ~ 174/sec.
• PSR B1937+21: second fastest known pulsar, P = 1.5578 msec, ~ 642/sec. The surface of this star is moving at about 1/7 c.
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Black Holes
• The escape velocity from a gravitational potential is vesc=√(2GM/R)
• This comes from Newton’s formulation of Kepler’s laws
• What happens if M/R is so large that vesc = c? (LaPlace asked this in about 1700)
• Schwarzchild Radius Rsch=c2/(2GM)
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Black Holes
• Rsch=c2/(2GM) defines a surface, the Event Horizon
• If R < Rsch, you are inside the event horizon, and you cannot get out
• How big are black holes:– Sun: ~3 km– Earth: ~1 cm
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Black Holes Don’t Suck
But they have very strong tides!
Black holes evaporate.
Black holes have no hair.