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Tidal Constraints on Planetary Habitability

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Presentation on theme: "Tidal Constraints on Planetary Habitability"— Presentation transcript:

1 Tidal Constraints on Planetary Habitability
Rory Barnes U. of Washington Virtual Planetary Lab Sean N. Raymond, Brian Jackson, Richard Greenberg

2 Distance from Star (AU)
Sun From Selsis et al. (2007) Mass of Star (M) GJ 581 Likely habitable Possibly habitable Distance from Star (AU)

3 Distance from Star (AU)
Tides Important Sun Mass of Star (M) GJ 581 Distance from Star (AU)

4 Distance from Star (AU)
Tidal Locking Synchronous Rotation! Sun Porb Mass of Star (M) Prot ∞ 1 + e2 GJ 581 obliquity 0 Distance from Star (AU)

5 Distance from Star (AU)
Sun Porb = 66 d e = 0.38 Prot = 28 – 39 d Mass of Star (M) GJ 581 ? High e => more habitable Distance from Star (AU)

6 GJ 581 No Clouds Total cloud coverage
Williams & Pollard (2002) + Selsis et al. (2007) GJ 581 No Clouds Total cloud coverage Barnes et al. (2008)

7 But tides circularize orbits…
semi- major axis HZ Orbit 0.2 M

8 But tides circularize orbits…

9 Orbital Decay -> Tidal Heating
Io has ~2 W/m2 heat flux Such heating could be bad for life

10 But Some Heating is Good…
Plate tectonics requires ~40 mW/m2 (Williams et al. 1997) Prevents runaway greenhouse

11 If heating > 2 W/m2 => uninhabitable If 0.04 < heating < 2 W/m2 => habitable If heating < 0.04 W/m2 => uninhabitable (need radiogenic sources)

12 “Tidal Habitable Zone”

13 d c e

14 Super- Earth? “Super- Ios”

15 or Super- Mars? “Super- Ios”

16

17 e = 0.01 e = 0.5 10 M

18

19

20 Summary Tidal locking ≠ Synchronous rotation Rotation rates are faster
Obliquities go to zero Tides may remove planets from HZ Tidal heating may be severe (super-Io) But tidal heating may drive plate tec. “Tidal Habitable Zone” First-detected rocky planets in HZ will be affected by tides

21

22 ec = 0 ec = 0.01

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