HOW TO DETECT A BLACK HOLE - PowerPoint PPT Presentation

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HOW TO DETECT A BLACK HOLE

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Roche lobe = 'sphere' of influence. actually teardrop shaped. Matter flows across Lagrange point ... star smaller than Roche lobe 'Roche lobe overflow': star ... – PowerPoint PPT presentation

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Title: HOW TO DETECT A BLACK HOLE


1
HOW TO DETECT A BLACK HOLE
  • Effects on matter/light outside the horizon
  • gravitational attraction of other bodies
  • dark star with mass
  • distinguish from normal star, white dwarf,
    neutron star
  • Accretion (swallowing) of gas
  • gas heated by compression/turbulence in strong
    gravity field X-rays
  • but need a source of gas
  • accretion from interstellar matter insignificant
  • mass transfer in binaries to the rescue

2
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3
CAN WE IMAGE BLACK HOLES?
4
CAN WE IMAGE BLACK HOLES?
NOT YET, BUT SOMEDAY?
  • HUBBLE read newspaper _at_ 1 mile
  • Optical/UV telescope in space
  • Falls short by 100,000
  • VLBA read newspaper in Philly
  • Transcontinental radio telescope
  • Falls short by 1,000
  • MAXIM Read newspaper on moon
  • X-ray interferometer in space
  • Can do it! Ready for launch (?) 2020-2030

5
  • MAXIM
  • Micro-
  • arcsecond
  • X-ray
  • Imaging
  • Mission

6
HOW TO DETECT BLACK HOLES
1. Mass of compact companion in close binary
system (stellar remnants only)
X-ray binary (artists impression)
7
HOW TO DETECT BLACK HOLES
M87 disk
2. Orbital motion of stars or gas clouds
(supermassive holes)
8
HOW TO DETECT BLACK HOLES
3. Random motions of stars in galaxys nucleus
(supermassive holes)
Globular cluster M3 (similar appearance to a
galactic nucleus)
9
Gas almost never falls directly into a black hole
Too much swirl (angular momentum)
10
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11
Gas almost never falls directly into a black hole
Too much swirl (angular momentum)
makes it more like a whirlpool
12
ACCRETION DISK
  • Like a flattened whirlpool
  • Gas must give up angular momentum to go down the
    drain
  • VISCOSITY (FRICTION)

13
ACCRETION DISKS ALLOW US to PROBE the HORIZON
Energy flows from one form to another...
  • GRAVITY
  • MOTION
  • HEAT
  • RADIATION (X-rays, UV)

matter swirling inward
friction
14
ENERGY FLOW IN ACCRETION DISK
Energy flows from one form to another...
  • GRAVITATIONAL POTENTIAL ENERGY
  • KINETIC ENERGY
  • HEAT
  • RADIATION

falling matter
compression/turbulence
particle collisions, etc.
15
EVOLUTION OF CLOSE BINARIES
  • Algol Paradox and its resolution
  • Roche lobe sphere of influence
  • actually teardrop shaped
  • Matter flows across Lagrange point
  • Too much angular momentum

ACCRETION DISK
16
ALGOLS CAN EVOLVE INTO X-RAY BINARIES
  • Crucial that mass ratio flips
  • otherwise stars can fly apart
  • Compact star either NS or BH
  • depends on mass of precursor
  • Two modes of mass transfer
  • stellar wind star smaller than Roche lobe
  • Roche lobe overflow star swells to fill Roche
    lobe

17
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18
BINARY MASS FUNCTION depends on...
  • Orbit period easy
  • Doppler shift of normal star easy
  • Mass of normal star hard
  • Orbit inclination hard

10
100
0.1
1
Log Mass (solar units)
19
NEUTRON STAR VS. BLACK HOLE how to tell
  • BH if
  • mass (reliable)
  • distinctive spectrum (unreliable ????)
  • NS if
  • pulsing (X-ray pulsar)
  • evidence of nuclear explosions on surface (X-ray
    burster)

20
X-ray pulsar (accretion)
X-ray burster (thermonuclear)
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