Starlight in the Night: Discovering the secret lives of stars
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1 Utah State University Public Talks Astrophysics Starlight in the Night: Discovering the secret lives of stars Shane L. Larson Utah State University Follow this and additional works at: Part of the Astrophysics and Astronomy Commons Recommended Citation Larson, Shane L., "Starlight in the Night: Discovering the secret lives of stars" (2008). Public Talks. Paper This Presentation is brought to you for free and open access by the Astrophysics at It has been accepted for inclusion in Public Talks by an authorized administrator of For more information, please contact
2 Starlight in the Night: Discovering the secret lives of stars Shane L. Larson Department of Physics Utah State University Stars Over Yellowstone Yellowstone National Park 2 August
3 Storyline The lives of the stars, in the skies over Yellowstone! Stellar evolution Birth of stars Groups of stars Death of stars 2
4 Recycling in the Universe Stellar evolution is a large process of recycling. Remnants remove material from the loop red giant average star red supergiant planetary nebula gas & dust nebula massive star SUPERNOVA! neutron star white dwarf black hole 3
5 Birth of Stars Stellar birth begins in vast molecular clouds in space Gravity causes the cloud to begin to collapse inward, forming a protostar M8, the Lagoon Nebula, is in the early stages of star forming 4
6 Birth of Stars Stellar birth begins in vast molecular clouds in space Gravity causes the cloud to begin to collapse inward, forming a protostar M8, the Lagoon Nebula, is in the early stages of star forming 4
7 Birth of Stars Stellar birth begins in vast molecular clouds in space Gravity causes the cloud to begin to collapse inward, forming a protostar M8, the Lagoon Nebula, is in the early stages of star forming 4
8 M16 (Eagle Nebula) 5
9 M16 (Eagle Nebula) 5
10 Stellar Clusters Molecular clouds are the parents of the stars, and often give birth to many stars, not just one As stars are born, their light and winds blow out surrounding nebula, making it luminous Nice example of a well developed cluster is M11 -- the Wild Duck Cluster 6
11 Stellar Clusters Molecular clouds are the parents of the stars, and often give birth to many stars, not just one As stars are born, their light and winds blow out surrounding nebula, making it luminous Nice example of a well developed cluster is M11 -- the Wild Duck Cluster 6
12 Stellar Clusters Molecular clouds are the parents of the stars, and often give birth to many stars, not just one As stars are born, their light and winds blow out surrounding nebula, making it luminous Nice example of a well developed cluster is M11 -- the Wild Duck Cluster 6
13 Binary Stars Stars often form in pairs, and orbit each other the same way planets orbit our Sun These are called binary stars. Roughly 50% of all the stars you see in the sky are actually binaries! It often takes a telescope to see the two stars 7
14 Binary Stars Stars often form in pairs, and orbit each other the same way planets orbit our Sun These are called binary stars. Roughly 50% of all the stars you see in the sky are actually binaries! It often takes a telescope to see the two stars 7
15 Binary Stars Stars often form in pairs, and orbit each other the same way planets orbit our Sun These are called binary stars. Roughly 50% of all the stars you see in the sky are actually binaries! It often takes a telescope to see the two stars 7
16 Shedding atmosphere Near the ends of their lives, interesting things happen to stars For stars less than ~2.5 solar masses, the outer layers of the star are shed and become planetary nebulae They have nothing to do with planets they look like planets in the telescope! Short lived, fading after only 10,000 years Famous example: M57 -- the Ring Nebula in Lyra 8
17 Shedding atmosphere Near the ends of their lives, interesting things happen to stars For stars less than ~2.5 solar masses, the outer layers of the star are shed and become planetary nebulae They have nothing to do with planets they look like planets in the telescope! Short lived, fading after only 10,000 years Famous example: M57 -- the Ring Nebula in Lyra 8
18 Shedding atmosphere Near the ends of their lives, interesting things happen to stars For stars less than ~2.5 solar masses, the outer layers of the star are shed and become planetary nebulae They have nothing to do with planets they look like planets in the telescope! Short lived, fading after only 10,000 years Famous example: M57 -- the Ring Nebula in Lyra 8
19 Shedding atmosphere Near the ends of their lives, interesting things happen to stars For stars less than ~2.5 solar masses, the outer layers of the star are shed and become planetary nebulae They have nothing to do with planets they look like planets in the telescope! Short lived, fading after only 10,000 years Famous example: M57 -- the Ring Nebula in Lyra 8
20 Shedding atmosphere Near the ends of their lives, interesting things happen to stars For stars less than ~2.5 solar masses, the outer layers of the star are shed and become planetary nebulae They have nothing to do with planets they look like planets in the telescope! Short lived, fading after only 10,000 years Famous example: M57 -- the Ring Nebula in Lyra 8
21 White Dwarf After the planetary nebula phase, nuclear burning slows and gravity begins to win Star collapses, but gravity can t compress the atoms beyond a certain point (this is called degeneracy pressure ) Final remnant is about the size of the Earth White Dwarf (the Sun will become one of these) 9
22 Explosions For massive stars, the end of its life is catastrophic: a supernova explosion! Luminosity of explosion is 10 billion times the luminosity of the Sun (a supernova can outshine its parent galaxy for a short time) The explosion distributes the heavy elements out into the galaxy (gold, uranium, etc) 10
23 Supernova Remnant The explosion creates a supernova remnant! 11
24 SN1054 (Crab Nebula) Supernova Remnants SN 1572 (Tycho s SN) SN 1604 (Kepler s SN) Cygnus Loop (Veil Nebula) SN 185 N63A (LMC) 12
25 SN1054 (Crab Nebula) Supernova Remnants SN 1572 (Tycho s SN) SN 1604 (Kepler s SN) Cygnus Loop (Veil Nebula) SN 185 N63A (LMC) 12
26 Supernova Remnants SN 1572 (Tycho s SN) SN1054 (Crab Nebula) Cygnus Loop (Veil Nebula) SN 185 SN 1604 (Kepler s SN) N63A (LMC) 12
27 A star shrunk to tiny size! Supernovae destroy most of the outer layers of a star, but compress the core to tiny size Most supernovae core become neutron stars. A neutron star has a diameter of only 10 kilometers. It will fit between Madison and Old Faithful! 13
28 A star shrunk to tiny size! Supernovae destroy most of the outer layers of a star, but compress the core to tiny size Most supernovae core become neutron stars. A neutron star has a diameter of only 10 kilometers. It will fit between Madison and Old Faithful! 13
29 Pulsars Emission along the magnetic axis (no one knows how!) If neutron star is spinning, the emission axis points in different directions at different times If you are in the right place, the emission sweeps across you 14
30 Pulsar Discovery First pulsar discovery made by Jocelyn Bell at Cambridge in 1967 Didn t initially know it was a neutron star. Regular signals from outer space aliens? Originally dubbed LGM-1, now known as PSR , or CP 1919 (in the constellation Aquila) 1968: Tommy Gold and Franco Pacini proposed pulsars to be rotating neutron stars 15
31 Pulsar Discovery First pulsar discovery made by Jocelyn Bell at Cambridge in 1967 Didn t initially know it was a neutron star. Regular signals from outer space aliens? Originally dubbed LGM-1, now known as PSR , or CP 1919 (in the constellation Aquila) 1968: Tommy Gold and Franco Pacini proposed pulsars to be rotating neutron stars 15
32 The Crab Pulsar Once we decided pulsars were neutron stars, we wanted to find more! Look in supernova remnants! Crab Pulsar soon discovered, with a 0.33 second rotation period 16
33 Kinds of Pulsars Most known pulsars are radio pulsars you can only see them in radio pulses The Crab radiates in radio waves, x-rays, and optical light! The Songs of the Crab 17
34 Looking for Black Holes How do we detect black holes in the galaxy? Look for their interactions with other objects! Look for events that require high energy or strong gravity! 18
35 Candidate: Cygnus X-1 Binary x-ray source, 8.8 mag optical blue supergiant Invisible companion is a 7-10 solar mass black hole the closest black hole candidate to Earth! 19
36 Candidate: Cygnus X-1 20
37 Last Thoughts... Carl Sagan once wrote (Cosmos): The desire to be connected with the Cosmos reflects a profound reality: we are connected. Not in trivial ways... but in the deepest ways. In the lives of stars we see reflections of our own lives on Earth stars are born, live long and lustrous lives, and eventually die, returning once again to the Cosmos from whence they came. 21
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