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Effects of Kozai Migration on Formation of Close-in Planets Soko Matsumura (University of Maryland) Douglas P. Hamilton (University of Maryland)

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Presentation on theme: "Effects of Kozai Migration on Formation of Close-in Planets Soko Matsumura (University of Maryland) Douglas P. Hamilton (University of Maryland)"— Presentation transcript:

1 Effects of Kozai Migration on Formation of Close-in Planets Soko Matsumura (University of Maryland) Douglas P. Hamilton (University of Maryland)

2 Hot Jupiters tend to be singletons (e.g., Latham et al. 2011). Multiple-planet systems prefer smaller planets (Talks by Lo Curto, Lissauer…). Motivation

3 Hot Jupiters tend to be singletons (e.g., Latham et al. 2011). Multiple-planet systems prefer smaller planets (Talks by Lo Curto, Lissauer…). – Formation of Hot Jupiters may affect formation and/or evolution of close-in multiple-planet systems.

4 Disk Migration Kozai Migration/Captur e e.g., Lin et al. (1996), Trilling et al. (1998) e.g., Fabrycky & Tremaine 2007, Wu et al. 2007, Nagasawa et al. 2008, Naoz et al. 2011, Talks by Naoz, Nagasawa, & Payne

5 Potential Candidates: Kepler- 11, HD 10180, Gl 876, HD 215497, HD 125612 etc. e.g., Raymond, Mandell, & Sigurdsson (2006) e.g., Lee & Peale (2002), Moorhead & Adams (2005)

6 Potential Candidates: Kepler- 11, HD 10180, Gl 876, HD 215497, HD 125612 etc. Potential Candidates: WASP- 8, WASP-33, WASP-22, CoRoT- 1, HAT-P-7 etc.

7 Hot Jupiters tend to be singletons (e.g., Latham et al. 2011). Multiple-planet systems prefer smaller planets (Talks by Lo Curto, Lissauer…). – Formation of Hot Jupiters may affect formation and evolution of close-in multiple-planet systems. Some Hot Jupiters are likely formed via Kozai Migration (e.g., Fabrycky & Tremaine 2007, Wu et al. 2007, Nagasawa et al. 2008, Naoz et al. 2011, Talks by Naoz, Nagasawa, & Payne), rather than Disk Migration. – Stellar obliquity distribution (Triaud et al. 2010) Motivation

8 Goal Estimate the probability of forming close-in Earths, Super Earths, or Hot Neptunes in the presence of a Kozai-Migrating Jupiter-like planet.

9 Method Mercury (Chambers 1999) + Tides (e.g., Eggleton, Kiseleva, & Hut 1998) f TF : Tidal Friction Force Q ’ : Modified Tidal Quality Factor Ω : Angular Velocity I : Moment of Inertia

10 Method Mercury (Chambers 1999) + Tides (e.g., Eggleton, Kiseleva, & Hut 1998) M p = M J a = 2 AU e = 0.98

11 Method Kozai Migration and Formation of a Hot Jupiter

12 Setup 0.05 – 20 AU 2 AU 10-30 AU MJMJ 10M J

13 Setup

14 Result 1: Efficient Kozai Migration

15 Small planets can survive at large radii.

16 Result 1: Efficient Kozai Migration Σ = 50 g/cm 2 (a/AU) -1.5 Semi-major Axis [AU]

17 Result 1b: “Slow” Kozai Migration

18 All planetesimals are gone.

19 Tides on Planetary Embryos Kozai Cycles are damped.

20 Result 2: Tides on Planetary Embryos Kozai Migrating giant planets tend to remove tidally circularized planetary embryos/planets.

21 Result 2: Tides on Planetary Embryos Semi-major Axis [AU] Σ = 50 g/cm 2 (a/AU) -1.5

22 Some could survive… Result 2: Tides on Planetary Embryos

23 Summary Study formation and survival of close-in planets during and after Kozai Migration of a giant planet. Kozai Migration can be important for close-in planets/planetary embryos as well. Kozai Migrating giant planet tends to remove low- mass planets interior to its orbit, but does not necessarily prevent formation of such planets. – Some low-mass planets could survive between two giant planets.

24

25 Result 2: Tides on Planetesimals

26

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