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Chemical constraints on Theories of Planet Formation. Vincent Geers Institute for Astronomy, ETH Zurich Star & Planet Formation group. M. Meyer, U. Gorti , E. Mamajek , D. Hollenbach , A. Benz. A. Banzatti , S. Bruderer , F. Lahuis , I. Pascucci , Th. Henning,
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Chemical constraints on Theories of Planet Formation Vincent Geers Institute for Astronomy, ETH Zurich Star & Planet Formation group M. Meyer, U. Gorti, E. Mamajek, D. Hollenbach, A. Benz A. Banzatti, S. Bruderer, F. Lahuis, I. Pascucci, Th. Henning, P. Ábrahám, A. Juhász
Outline • EX Lup: molecular emission lines toward variable YSO • Limits on timescale ice-giant formation with Herschel
The carbon problem Lee, Bergin & Nomura 2010 • C under abundant in Earth and meteorites compared to what is available at formation => primordial carbon grains are destroyed, while silicon grains remain intact
Discontinuities in disks provide observational tests From M. Meyer, Physics World, November, 2009 Based on Dullemond et al. (2001) with artwork from R. Hurt (NASA)
Chemistry in planet-forming zone • Wide range of molecules now detected in planet-forming zone (0.1-10AU) around few dozen YSOs (H2O, HCN, C2H2, OH, CO) • Concurrent C, N, O in inner disks imply complex chemistry! Pontoppidan et al. 2010
Gas disk chemistry may vary with stellar mass Pascucci et al. (2009)
EX Lup: temporal domain experiment • EX Lup • young M star with disk • Eruptive variable star, on timescale of decades • Recent outburst in January 2008, accretion rate up ~40, luminosity ~4 (Aspin et al. 2010) • Spitzer observed it before and during outburst • Unique experiment: What happens to the gas and dust content when only 1 parameter, luminosity, is changed?
Episodic formation of cometary material • Witnessed formation of silicate crystals during outburst • Previous big outburst in 1955 => no trace in 2005 => efficient removal of crystalline silicates from surface Halley/Tempel comets ISM Pre-outburst Outburst Ábrahám et al. 2009 Nature
Water line variations in disk around EX Lup Quiescent phase March 2005 Outburst phase April 2008 H2O features (Banzatti et al. in prep.)
Results of water modeling • Line ratios suggest larger surface area with constant water abundance in outburst • Grid of simple LTE models (NH2O, T, area) • best fit outburst : cooler water and 4-5 x larger emitting area than when in quiescence • Ice line moving outward during outburst? Modified from Pontoppidan et al. 2010
C2H2, HCN, OH also change! Quiescent phase March 2005 Outburst phase April 2008 OH OH • OH: undetected in quiescence, detected in outburst • photo-dissociation from H2O ? (Tappe et al. 2008) • compare with predictions for self-shielding by Bethell & Bergin 2010 • HCN & C2H2: detected in quiescence, not in outburst • Line flux ratio HCN/C2H2 in quiescence consistent with solar-type star, cf. Pascucci et al. (2009) HCN C2H2 Banzatti et al. (in prep.)
What is the timescale for forming ice-giants? • Do young 10-100 Myr stars with debris disk systems have enough gas (> 10 Mearth) to form planets like Uranus and Neptune? • Debris disks assumed gas-poor, but counter-examples exist: 49 Cet, Beta Pic (10-20 Myr) • Modest amounts of gas may still significantly influence grain dynamics, thus planetesimals growth
Herschel is best for limits of ice-giant formation! • [OI] one of the strongest gas emission lines originating from 10-50 AU region (ice-giant planet forming zone) => sensitive probe of remnant gas available to form ice-giants Based on Gorti & Hollenbach 2008
Limits on ice-giant formation with Herschel • Search for remnant gas in 10-100 Myr debris disks, with detected planets and/or signs of planet formation: • GT program (2.5 hr) : HR 8799, HD 15115 to be scheduled hopefully next window Nov-Jan • OT program (4.9 hr) : 4 young stars with well-studied dust distributions: HD 61005, HD377, MML17, RXJ1852.3-3700 • Observations will probe down to 0.01 – 4 Mearth of gas: • Non-detections => strong upper limits for formation of ice-giants (M ~ 10 Mearth) • Detections => will need follow-up (e.g. CO, [CII]) to determine relative abundances of C, N and O in photo-evaporating disks
Take home message • EX Lup: molecular emission lines changing dramatically with luminosity during outburst : • H2O, OH lines stronger, C2H2 and HCN weaker • Simple LTE model of water consistent with cooler water and larger emitting area • Herschel will provide important constraints on timescale for formation of ice-giants
Gordon Research Conferences Origins of Solar Systems Composition of Forming Planets: A Tool to Understand Processes July 17-22, 2011 Mount Holyoke College South Hadley, MA Program available later this fall. Registration open at http://www.grc.org/ or Google “GRC 2011 Origins”