3. Dark stars Rev. John Michell (1783)
� If there really should exist in nature any bodies � whose density is not less than that of the sun,� and whose diameters are more than 500 times� the diameter of the sun their light could not � arrive at us.
Pierre Simon Laplace (1796)
There exist in the heavens therefore dark bodies, � as large as and perhaps as numerous as the stars� themselves.
7. Calculation of escape velocity
8. Calculation of �Schwarzschild radius
9. Schwarzschild radii for different objects
10. Earth as a depression in �the space-time fabric
11. A black hole is an infinite abyss in space-time
12. Structure of a black hole
13. Recall singular behaviour of electrons electric field
E = Q / (4pe0r2)�
It is infinite when r = 0. �Quantum field theory�comes to the rescue
14. Photon orbits around �a black hole
15. Falling into a black hole:�time dilation
16. Spaghettification!�
17. Singularity theorem
Every black hole must have a singularity inside itself
18. Naked singularity ��
A singularity that is not inside a black hole (not �surrounded by an event horizon), and therefore �can be seen by someone outside it
19. Cosmic censorship hypothesis
The laws of physics prevent naked singularities from forming when a star collapses
20. No-hair theorem A black hole has almost no hair; �its only hair are its �
mass�
angular momentum�
electric charge
22. Types of black holes Schwarzschild (1916)
mass�
Reissner-Nordstrm (1916, 1918)
mass, electric charge�
Kerr (1963)
mass, angular momentum�
Kerr-Newman (1965)
mass, angular momentum, �electric charge
23. Space-time diagram
24. Schwarzschild� black hole
25. Reissner-Nordstrm �black hole
26. Kerr black hole
27. Wormhole
28. Energy extraction from �a Kerr black hole
29. Virtual particles In quantum theory, there is an intrinsic uncertainty in energy and time: ?E ?t = h/4p
This implies the existence of virtual particles �even in a vacuum
Virtual particles appear �in pairs, consisting of a �particle and its corres-�ponding antiparticle
30. Hawking radiation
One partner of a virtual-particle�pair could fall into a black hole, �carrying negative energy with it
Effectively, the black hole appears�to be emitting particles and losing�mass!
31. But this effect is very tiny�for normal black holes
For a solar mass black hole
Temperature = 10-7 K
Lifetime = 1067 years �(age of universe = 1010 years)�
Since T ? 1/M, this effect is more�pronounced for small black holes
Mini black holes created during�the Big Bang?
32. Binary black hole system
33. Microlens event http://hubblesite.org/newscenter/archive/2000/03/http://hubblesite.org/newscenter/archive/2000/03/
34. Black hole in globular cluster http://hubblesite.org/newscenter/archive/2002/18/http://hubblesite.org/newscenter/archive/2002/18/
35. Disk in galaxy NGC 7052 http://hubblesite.org/newscenter/archive/1998/22/http://hubblesite.org/newscenter/archive/1998/22/
36. NGC 4438 http://hubblesite.org/newscenter/archive/2000/21/http://hubblesite.org/newscenter/archive/2000/21/
37. Galaxy NGC 6251 nucleus http://hubblesite.org/newscenter/archive/1997/28/http://hubblesite.org/newscenter/archive/1997/28/
38. M87 http://hubblesite.org/newscenter/archive/1999/43/http://hubblesite.org/newscenter/archive/1999/43/
