ihorn
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ihorn. To see a world in a grain of sand…. Michael R. Meyer Institute for Astronomy, ETH-Zurich Dynamics of Discs and Planets Isaac Newton Institute. Planet Formation = Saving the Solids. - PowerPoint PPT PresentationTRANSCRIPT
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ihorn
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To see a world in a grain of sand…Michael R. Meyer
Institute for Astronomy, ETH-ZurichDynamics of Discs and Planets
Isaac Newton Institute
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Planet Formation = Saving the Solids
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Are planetary systems like our own are common or rare among sun-like stars in the Milky Way galaxy?
Q: What is the history of planetesimal collisions vs. radius?
Q: How does this vary with stellar properties?
Q: Can we see evidence for terrestrial planet formation?
Q: Is there a connection between giant planets and debris?
Because the answers are subtle, need large samples over a wide range of ages.
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Initial Conditions in Protostellar Disks.
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CA
I F
orm
ati
on
? T
err
est
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Pla
nets
?
Ch
ron
dru
les?
Inner Disk Lifetime
Fre
quen
cy
< t > ~ 3 Myr
Inner (< 0.1 AU) Accretion Disk Evolution 0.1-10 Myr
Haisch et al. 2001; Hillenbrand et al. (2002); Muzerolle et al. (2003).
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Properties Influencing Disk Evolution
• Stellar Mass:
• Luminosity & Incident Spectra:
• Initial cloud core angular momentum:
• Composition:
• Companions versus Mass and Orbital Radius:
• Formation environment:
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Gas disk chemistry may vary with stellar mass…
Pascucci et al. (2009); cf. Carr & Najita (2008); Pontoppidan et al. (2008)
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74 stars 3-30 Myr old: => 5 gas-rich disks. => no optically-thin hot dust (< 1 AU).
Silverstone et al. (2006);Cieza et al. (2007);and references therein.
Rapid Transition time thick to (very) thin inside 1 AU
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=> Primordial disks last longer around lower mass stars.
=> Duration of the “transition”
~105 yrs.
Carpenter et al. (submitted)
Disk Evolution in Upper Sco at 5 Myr: 220 Stars
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Primordial (Gas Rich) Disks: » Required for gas giant planet formation.
Debris (Dusty) Disks:» Trace evolution of planetesimal swarms.
How can you tell the difference?» Absence of gas (Gas/Dust < 0.1).
» Dust processing through mineralogy (silica?).
Debris dust may be generated early on in gas rich disks and could dominate opacity before gas dissipates!
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Herschel will be powerful probe of the final stages of gas dissipation (ice giant formation).
Gorti & Hollenbach (2008); GASPS and DIGIT Open Time Key Programs
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Planets as a Function of Stellar Mass: What Should We Expect?
Planetesimal Formation Timescales:
» tp ~ p x Rp / [ d x d]
– d ~ M*/a and d~ sqrt(M*/a3)
– following Goldreich et al. (2004); Kenyon & Bromley (2006).– Normalize: @ 3 Myr - [3 Mearth, 5 AU, 1 Msun]
» tp ~ [p x Rp x a5/2]/ [M*3/2].
– Gives Jupiter mass gas giant planet.– Massive planets farther out surrounding stars of higher mass.– Consistent with observations to date (Johnson et al. 2007).– Yet disks last longer around stars of lower mass! [Lada et al. (2006); Carpenter et al. (2006).]
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0.0
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Siegler et al. ‘07; Currie et al. ‘07; Meyer et al. ‘08; Carpenter et al. ‘09
Evolution of Disks Around Sun-like Stars:Tracing Planet Formation? (Field & Cluster)
6.0 7.0 8.0 9.0
CAIs Vesta/Mars LHB Chondrules Earth-Moon
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QuickTime™ and aTIFF (Uncompressed) decompressor
are needed to see this picture.
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Earth-Moon collision released 5 x10-3 Mearth in hot gas.
If condensed to micron sized dust, more than 100x above detection limits.
Lifetime of such dust ~ 103 years over timescale of 107 yrs.
Such collisions are rare in Spitzer samples.
Lisse et al. (2009)
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…you can see them with nextgeneration instruments!
Miller-Ricci, Meyer, Seager, Elkins-Tanton(2009)
QuickTime™ and aTIFF (Uncompressed) decompressor
are needed to see this picture.
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Planetesimal Dynamics = Compositional Differences
Raymond et al. (2004; 2006); See also Kenyon and Bromley (2005)
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Disk Models+Condensation+N-Body = Diverse Terrestrial Planets through Chemistry?
J. Bond et al. (submitted)
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From Stellar Spectra to Planetesimal Composition:
M. Jura (2006); Ashwell et al. (2005); Winnick et al. (2002); Wilden et al. (2002)
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Carpenter et al. (submitted)
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Carpenter et al. (submitted)
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The Late-Heavy Bombardment and the Dynamical History of the Solar System
You’ve read the screenplays...
Morbidelli et al. ,Gomes et al., &Tsiganis et al. (2005)
You’ve seen the movies…
Cohen, Swindle, Kring (2000)
<Hal’s whacky animated PDF files>
Was it just a bad dream? Or is it happening somewhere NOW?!
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LHB Events aroundSun-like stars…are rather special events!
Was our system unusually bright from 8 to 24 microns at early times?
Booth et al. (2009)Cf. Meyer et al. (2007)
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Time
Du
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Planets
No Planets
The connection between planetesimal belts and presence/absence of giant planets is
not clear.
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No link between debris and RV planets found!Could debris disks be more common than Gas Giants?
Moro-Martin et al. (2007a; 2007b), Kospal et al. (2009), Bryden et al. (2006)Notable Exceptions: HD 69830, HR 8799, Fomalhaut, Beta Pic, eps Eri…
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Debris Disks vs. Metallicity: More “diverse” than RV planet systems?
Greaves et al. ‘06; Bryden et al. ‘06; Najita et al. (in preparation).
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Debris Disk Evolution and Multiplicity:
Debris Disks not inhibited by companions.
Trilling et al. (2007) cf. Wyatt et al. (2003)
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Spitzer/FEPS (Meyer et al. 2006)The Last Word: Carpenter et al. (2009)
Evolution in Disk Luminosity:
A stars: Su et al. (2006) G stars: Bryden et al. (2006) M stars: Gautier et al. (2007)
Distribution of Inner Hole Sizes: cf. Morales et al. (2009; next talk!)
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Sub-mm Observations of Debris Disks:Carpenter et al. (2005); Greaves et al. (2006; 2008); Liu et al. (2004)Greaves et al. (2009); Lestrade et al. (2009); SCUBA-2 coming…
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Are planetary systems like our own are common or rare among sun-like stars in the Milky Way galaxy?
Primordial Disk Evolution:
- disks around lower mass stars are less massive but live longer than their more massive counterparts.
- large dispersion in evolutionary times could indicate dispersion in initial conditions.
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Are planetary systems like our own are common or rare among sun-like stars in the Milky Way galaxy?
- transition time from primordial to debris is 0.1 Myr.
- planetesimal belts evolve quickly out to 3-30 AU.
- any difference between evolution in field versus clusters?
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Debris Disk Evolution:
- currently detectable systems are collision-dominated.
- more common (and massive) around stars of higher mass.
- evolutionary paths are diverse.
- “consistent with” initial conditions, and current state of solar system being common.
- connection to planetary systems unclear.
Are systems without debris those with dynamically full planetary systems, or those without any planets?
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Are planetary systems dynamically full?
Does rapid large planetesimal growthlead to planets andweak debris?
Are systems without debris “complete mission success”?
The Case of HD 74156 dBarnes et al. (2007); Bean et al. (2008)
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Variation with R0
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A Picture is Worth 1024 x 1024 Points on an SED…
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A Picture is Worth 1024 x 1024 Points on an SED…
Spitzer @ MIPS-24 JWST-MIRI Herschel
Embar
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