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Exploring a Nearby Habitable World …. Orbiting an M-dwarf star Drake Deming NASA’s Goddard Space Flight Center.

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Presentation on theme: "Exploring a Nearby Habitable World …. Orbiting an M-dwarf star Drake Deming NASA’s Goddard Space Flight Center."— Presentation transcript:

1 Exploring a Nearby Habitable World …. Orbiting an M-dwarf star Drake Deming NASA’s Goddard Space Flight Center

2 This talk will discuss: The landscape of extrasolar planets …..and detection techniques Some history How to find and characterize a habitable world ……using transits

3 Most of the > 450 exoplanets have been detected using radial velocities …an indirect detection: light from the planet is not measured

4 Summary of the known exoplanets Deming & Seager review in Nature 462, 301 (2009) Also, Seager & Deming ARAA (2010)

5 Exploit transits to characterize SuperEarth Atmospheres… Can we characterize the atmosphere of a SuperEarth using transits…? A habitable one?? Direct detection of light from the planet

6 Brown et al. 2001, ApJ 552, 699 Transit data immediately yield the planet's bulk properties - mass (0.69 M J ) and radius (1.35 R J ) Can we characterize the atmosphere?

7 Emitted/reflected spectra of hot Jupiters in the paleolithic age (1999-2003) D. Deming J. Richardson ? Charbonneau, Brown, Collier-Cameron, Deming, Richardson, Wiedemann, and others struggled towards ground-based detection

8 “First Light” Thermal Emission yields T ~ 1100K Spitzer enables direct detection of IR light from the planets eclipse depth ~ (R p /R star ) 2 (T p /T star ) Six Spitzer photometric bands can give a low resolution spectrum of the planet

9 HD 189733b (K3V) 32  detection at 16  m Deming et al. 2006, ApJ 644, 560 T p ~ T star  0.5 eclipse depth ~ (R p /R star ) 2 (T p /T star ) lower main-sequence stars allow high S/N planet detection Dominant term Eclipse of HD 189733B

10 Knutson et al. 2007 Nature (May 10) 60-sigma detection thermal phase variation

11 A Surface Emission Map of an Exoplanet implies significant redistribution, with a phase lag in longitude (winds) Knutson, Charbonneau, et al. (2007)

12 An Exoplanet Spectrum (R ~ 100) Grillmair et al. 2008 Nature 456, 757 Many other planets show inverted atmospheric structure

13 ~ 30% of FGKM stars host superEarths, based on: Microlensing (Gould et al. 2006, ApJ 644, 237) Radial Velocity Surveys (Mayor et al. 2009, ApJ 493, 639) Their atmospheres initially contain: H 2, H 2 O, CO, CO 2 Elkins-Tanton & Seager 2008 ApJ 685, 1237 Schaefer & Fegley 2009, astro-ph/0909.4050 Miller-Ricci et al. 2009, ApJ 690, 1056 Outgassing from accretion and ongoing tectonics Both thermal and non-thermal atmospheric escape rates are uncertain… but the atmospheres can contain residual H 2 …making their detection easier

14 The M-dwarf Opportunity The lowest mass stars (M4V and later) are attractive targets for 3 simple reasons: 1.They are VERY numerous (they outnumber Sun-like stars 10:1). 2.The habitable zone lies close to the star implying short orbital periods (~10 days) and a higher probability of transits. 3.The small stellar size means that rocky planets can be detected with ground-based precision. - D. Charbonneau The nearest habitable world orbits an M-dwarf

15 The nearest transiting habitable SuperEarth orbits an M-dwarf 1.00.30.1 HZ frequency …an all-sky survey finds them With high efficiency

16 The MEarth Project Charbonneau et al. Using 8 X 16-inch telescopes to survey the 2000 nearest M-dwarfs for rocky planets in their habitable zones Converted an existing abandoned building on Mt Hopkins, AZ Fully operational as of September 2008 Southern hemisphere extension under development These planets will be amenable to spectroscopic follow-up to search for atmospheric biomarkers

17 The First MEarth Super-Earth R = 2.7 Re M = 6.5 Me T ~ 450K D =13 pc GJ 1214b Charbonneau et al. Nature 462, 891 (2009)

18 Spitzer brought us to the modern era of exoplanet characterization Ground-based detection is now easier because we know the nature of the signals from Spitzer detections CoRoT-1 eclipse, 2 microns at VLT Gillon et al. 2009, A&A So…space-based first, then ground

19 6.5 m diameter 26 m 2 collecting area 0.7 - 25 microns  S. Seager The James Webb Space Telescope Giant exoplanets first, then super-Earths?

20 Example of carbon dioxide in a habitable SuperEarth Based on extensive simulations, See PASP 883, 952 (2009) JWST: stability ELTs: resolving power

21 Conclusions and Comments Spitzer – and now ground-based observers – have detected light from transiting extrasolar planets A habitable world transiting a nearby M-dwarf can be characterized (major molecular constituents) using JWST Space first, then ground –JWST stability will clarify the nature of the signals –The ELTs will exploit their spectral resolution For true Earth analogs, we will need high contrast imaging from space (TPF) Conclusions and comments

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