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GoalsGoals
• What are neutron stars and pulsars?• What are black holes?• How do we see black holes?• What happens when neutron stars and
black holes are in binaries?
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Supernova Remnant
• Recall: In the death of a high-mass star, the core is converted to neutrons and collapses catastrophically.
• The collapse and rebound creates a supernova.
• But what happens to the neutrons already at the very center of the core?
• The central core is left behind as a small, dense, sphere of neutrons a neutron star.
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Neutron Stars
• A giant ball of neutrons.
• Mass : at least 1.4 x mass of the Sun.
• Diameter: 20 km!• Density: 1018 kg/m3
– A thimble weighs as much as a mountain• Day: 1 – 0.001 seconds!
• Magnetic fields as strong as the Sun, but in the space of a city.
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Pulsars• Interstellar
Lighthouses.• See periodic bursts
of radiation.• Perfect clocks.• While every pulsar
is a neutron star, the opposite isn’t true.
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Pulsar Motion
• Pulsars born in the center of supernovae explosions.
• Non-symmetric explosions lead to huge “kick.”
• Large velocity pulsars.
• v = 800 – 1000 km/s!Guitar Nebula – copyright J.M. Cordes
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Neutron Degeneracy
• Neutron stars are held up by neutron degeneracy pressure.– Recall electron degeneracy pressure for white
dwarfs.
– For white dwarfs, maximum mass of 1.4 Msun
• For neutron stars, maximum mass ~3Msun
• What happens if a high-mass star is SO big that its central core is bigger than this?
• What happens when gravity is stronger than even neutron degeneracy pressure?
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Quark Stars
• Neutrons (and protons) are made of quarks.
• Gravity could crush neutrons into free quarks.
• Called strange matter (a type of quark).• Astronomers think they may have seen a
quark star.
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Density• Density = mass per volume• From Red Giant cores to White Dwarfs to
Neutron Stars, density has been increasing.• As density increases, the force of gravity on
the surface increases.• The greater the force, the higher the
escape velocity:– How fast you need to go in order to escape the
surface.
• How dense can something get?• How strong can the force of gravity be?• What if the escape velocity is faster than
light?
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Black Hole
• When a high-mass star’s core is greater than ~3 x Msun, then, when it collapses, the density becomes so high not even light can escape!
• The star collapses to form a Black Hole.
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The Event Horizon• Event Horizon = black hole “surface”
Object Mass Radius
Earth 6 x 1024 kg 1 cm
Jupiter 300 x Earth 3 m
Sun 300,000 x Earth
3 km
SunEH M
Mkm3R
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Seeing Holes
• Can’t see black hole itself, but can see matter falling into a hole.
• Gravitational forces stretch and rip matter: heats up.
• Very hot objects emit in X-rays (interior of Sun)
• Cygnus X-1.http://www.owlnet.rice.edu/~spac250/steve/ident.html
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Binaries• Gravitational tides pull matter off big low
density objects towards small high density objects.
Cygnus X-1
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Nova and Supernova• Similar situation with white dwarf-gas
giant pairs.• White dwarf accretes matter from giant.• If enough material falls fast enough it
will ignite and fuse on the w.d. surface:• Nova!• If enough mass falls onto white dwarf
that Mwd > 1.4 x Msun:• White dwarf collapses to a neutron star.• Supernova! (now there are two types)
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