Stellar Corpses and Other Space Oddities

1. Stellar Corpses and Other Space Oddities Black Holes, Neutron Stars, Nova and other creatures in the stellar zoo

2. End of a Massive Star • Core contracts and becomes neutronized by reverse Beta decay • Collapse either is stopped by degeneracy • Or, for very massive core (3M) collapse isn’t halted

3. Neutron Stars • Core Mass 1.4-3M • Very dense ( 1 teaspoon= 1billion tons) • Small in size (10-30km) • STRONG magnetic field • Likely spinning rapidly • Postulated in 1930’s • Not widely accepted until 1968

4. Neutron Stars and Pulsars • Pulsars discovered in 1968 • Beaming “pulses” of EM waves at regular intervals • LGM at first! • Lighthouse Model • All Neutron Stars may be Pulsars

5. Lighthouse Model Rotation Axis Beamed Radiation Magnetic Field Neutron Star

6. Pulsars • Millisecond Pulsars • Pulsars are slowing • Can be in Binary systems • Maybe a source of X-ray Binaries • Neutron Star is accreting material from companion

7. Black Holes • If collapse is not halted • Mass collapses to a singularity • Singularity is a point • “Punches a hole” in space-time • Curvature of spacetime • Gravity is extremely strong

8. Black Holes • Escape Velocity greater than c • Like standing on a rubber sheet holding an anvil (2D analogy) • Black holes are actually 3D objects • Think Flatland! • Event horizon-boundary between BH and observable universe • Schwarzschild Radius

9. Black Holes • Strong Gravity Tidal Forces • Relativity takes over (time slows) • No way to get knowledge from interior • Much indirect evidence for Black Holes • Also form X-ray binaries • Use formula to find mass of unseen companion

10. Black Holes Have No Hair • Matter in a black hole becomes simple in form • Loses all identifying features except • Electric Charge • Mass • Angular Momentum • No protons, electrons, neutron etc

11. Two Types of Black Holes • Schwarzschild Black Hole – “classic” non-rotation • Kerr Black Hole- rotating, can escape from (maybe) • Black Holes may be evaporating from Hawking Radiation

12. Black Hole Binary Systems Roche Lobe Overflow Wind X-ray Jets Black Hole Companion Star Accretion Disk

13. Nova • A WD in binary system • Accretes matter from companion • Gets stellar “indigestion” • Flares up and brightens • Calms back down • Process begins again • Doesn’t disrupt star

14. Type I Supernova • Same setup as Nova • Accretion occurs much faster • Star can’t “burp” off material • Exceeds Chandre mass • Star begins a rapid collapse w/core bounce • Supernova that completely destroys WD

15. Supernova Comparison • Type I much more luminous that Type II • Both form Supernova Remnants (SNR) • Type I have less material in SNR • Material is moving much faster in Type I • Type I have no Hydrogen in spectra • Type II do

16. Hypernova and Gamma Ray Bursts • New idea • Very powerful supernovae • Could be generating BH instead of NS • Collapse of BH leads to Gamma Ray Burst • Gamma Ray bursts are random • No one knows what they are!

17. Summary • Massive stars can leave behind unusual corpses • Supernova come in different types