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Peter Wheatley (PS009) p.j.wheatley@warwick.ac.uk PX437 EXOPLANETS Peter Wheatley (PS009) p.j.wheatley@warwick.ac.uk.

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Presentation on theme: "Peter Wheatley (PS009) p.j.wheatley@warwick.ac.uk PX437 EXOPLANETS Peter Wheatley (PS009) p.j.wheatley@warwick.ac.uk."— Presentation transcript:

1 Peter Wheatley (PS009) p.j.wheatley@warwick.ac.uk
PX437 EXOPLANETS Peter Wheatley (PS009)

2 Materials Outline Introduction (Solar system and planet formation)
Research papers: See list on module page. Book (not essential): The Exoplanet Handbook, Perryman, CUP, 2012, £30 Outline Introduction (Solar system and planet formation) Protoplanetary and debris discs Indirect detection by reflex motion of star Transiting exoplanets Microlensing and direct imaging Extra-terrestrial life

3 IAU Asteroid belt Kuiper belt Terrestrial planets Gas giants
Ice giants IAU

4 Planets, dwarf planets, small solar-system bodies
Ceres: dwarf planet Typical asteroid: small solar-system body HST

5 Evolutionary tracks - luminosity
Burrows et al. 1997, ApJ 491, 856 Burrows et al. 2001, RvMP, 73, 719 Stars Brown dwarfs Planets Jupiter Saturn Evolutionary tracks - luminosity

6 Evolutionary tracks - radius
Stars Brown dwarfs Burrows et al. 2001, RvMP, 73, 719 Planets Evolutionary tracks - radius

7 Mass-radius relation Jupiter

8 Equations of state Stevenson 1982 AREPS 10, 257

9 Composition of solar system planets
Stevenson 1982 AREPS 10, 257

10 IAU Asteroid belt Kuiper belt Terrestrial planets Gas giants
Ice giants IAU

11 Nebula hypothesis Rich Townsend, UCL
Believe Sun and planets formed from a Solar Nebula, rotation + collapse => disk. Rich Townsend, UCL

12 Protoplanetary disc Image: NASA/JPL-Caltech/T. Pyle (SSC)

13 Tidal model Stephen Oxley

14 Minimum Mass Solar Nebula
Hayashi 1981 Duncan Forgan

15 Cosmic abundance (by number)
Element Abundance (per 100,000) Common molecules H 92,700 H2 (He) 7,200 O 50 H20 (Ne) 20 N 15 NH3 C 8 CH4 Si 2 Mg2SiO4 Mg Fe 1 Fe3O4

16 Condensation by temperature
Condensation temperature Materials Examples K Ca Al Ti compounds Al2O3 CaTiO3 refractory elements common elements K Mg, Si compounds Mg2SiO4 MgSiO3 1350 K metallic iron alloys Fe 370 K magnetite Fe3O4 180 K water ice H20 volatile Elements 130 K ammonia hydrate NH3·H20 40-80 K methane, methane ices CH4 CH4·7H20

17 Growth of solids Blum et al 1998 Blum & Wurm 2008

18 Gas drag and planetesimal migration
Rice et al 2004

19 Gas accretion Pollack et al 1996

20 Disc evaporation Duncan Forgan

21 Single-slit diffraction

22

23 Spectrum of a planet

24 So the problem is imaging a v faint object v close to a bright star
So the problem is imaging a v faint object v close to a bright star. It is a problem of contrast. Example here does have a planet, but detected in directly. 51 Peg in DSS-II

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