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Exo-Planet Task Force (ExoPTF)
A Strategy for the Detection and Characterization of Exoplanets
Preliminary Findings Briefing
“Do there exist many worlds, or is there but a single world? This is one of the most noble and exalted questions in the study of Nature.”
-Albertus Magnus 1193-1280
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Publications and Planets
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Exo-Planet PublicationsExo-Planet Discoveries
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Recent Results for ExoSystems
• Many detections• Rich variety of exosystems• Multi-planet systems• Lower masses• Closer to solar system analogues• Potentially Earth-like planets may be
common
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Astronomy and Astrophysics Decade Review
2007 - 2010
AAAC ExoPlanet Task Force2006 - 2007
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Task Force Membership
Debra FischerSan Francisco State
Gary MelnickCFA
Heidi HammelSpace Science Institute
David MonetUSNO
Lynne HillenbrandCal Tech
Charley NoeckerBall
James KastingPenn State
Stan PealeUCSB
Greg LaughlinUCSC
Andreas QuirrenbachLandessternwarte Heidelberg
Bruce MacintoshLawrence Livermore
Sara SeagerMIT
Mark MarleyNASA Ames
Josh WinnMIT
Jonathan Lunine (chair) - Lunar & Planetary Lab
Thomas Henning (ESA liaison) - Max Planck Inst Heidelberg
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Meetings and Invited BriefingsFebruary 20-21 (Washington - NSF and NASA HQ)
Debra Fischer - Status of exoplanet detectionsDoug Lin - Jovian exoplanetsVicki Meadows/ Jim Kasting - Terrestrial exoplanetsWes Traub - Exoplanet detection approaches IDavid Charbonneau - Exoplanet detection approaches II
April 10-11 (Cambridge):Michael Perryman - European exoplanet detection and study programsJamie Lloyd - RV measurements in the IRMark Clampin - JWST potential Scott Gaudi - Microlensing techniques
May 2-3 (Tucson)Dave Latham - Kepler and Kepler follow-upPhil Pinto - LSST capabilitiesPhil Hinz - Imaging of exoplanet disk systemsShri Kulkarni - SIMDan Coulter - TPFGreg Laughlin - Testing planet formation modelsBruce Macintosh - Imaging with ELT’s
August 14-15 (San Francisco) James Marr--Astrometric Planet Hunter Pete Worden--Mission costs
September 11-12 (Washington-NSF)--report preparation
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Contributed Exoplanet White Papers
84 papers308 distinct contributors48 institutions23 states13 countries
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The most compelling questions and how to answer them
What are the characteristics of Earth-size/Earth-mass planets in the habitable zones around bright, nearby stars?
– RV measurements– Spitzer/JWST transit photometry– Astrometric measurements– Visible/IR Characterization
What is the architecture of planetary systems?– Microlensing photometry and follow-up– Kepler transit studies– Astrometric measurements
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Recommendations• Intensify RV studies to reach lower mass planets (more time/precision).• Search for transiting terrestrial exo-planets around nearby M dwarfs,
characterize with Warm Spitzer and JWST• Prepare for a characterization mission around Sun-like stars - need
actual earth-like targets with known orbits– Technology: sub m/s RV, sub micro-arcsec astrometry, spaceborne
coronagraphy– Exozodi--need measurements down to 10 zodii around nearby stars– An astrometric mission does not need to wait for Kepler’s
• A characterization mission--coronagraphy/occulter first, then interferometry
– Once stars are known from astrometry, mission is simplified• Microlensing for large-scale architectures
– Augment ground-based facilities– Spaceborne mission - if possible at Discovery level or below.
• Flexibility of approach– Adjust timing: Could slow astrometry/coronagraphy– Adjust ambition of characterization effort – Maintain pace on the M-dwarfs
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1-5 yrs 5-10 yrs 10-15 yrs
Two-pronged strategy:
M dwarfs
F, G, K dwarfs
Fast-track ground-based, and existing space assets
Requires technology investments And new space-based facilities
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1-5 yrs 5-10 yrs 10-15 yrs
If is > 0.1:
RV + Transit surveys--> Spitzer-->JWST
,masses, addresses Density, detectability Characterize for habitabilityM
dwarfs
F
G
K
Corot/ Kepler --> Astrometry+RV --> Coronagraphy/occulter
Density, addresses Characterize for habitability
Exo-zodi studies
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1-5 yrs 5-10 yrs 10-15 yrs
If exo-zodis are large (> 10 zodis):
RV + Transit surveys--> Spitzer-->JWST
,masses, addresses Density, detectabilityM
dwarfs
F
G
K
Corot/ Kepler Astrometry+Microlensing
Planetary architecture
Nearby stars: Ground-based extreme AO on ELT for giant planets
Exo-zodi studies
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1-5 yrs 5-10 yrs 10-15 yrs
If is < 0.1:
RV + Transit surveys
,masses, addresses Density, detectabilityM
dwarfs
F
G
K
Corot/ Kepler Astrometry+Microlensing
Planetary architecture
Nearby stars: Ground-based extreme AO for giant planets.
Possible participation in Darwin
Exo-zodi studies
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1-5 yrs 5-10 yrs 10-15 yrs
Advanced and intensive RV studies - Kepler followup Advanced ground-based microlensing Advanced ground-based transit searches ELT advanced imaging (extreme AO)Fellowships, supporting observational and laboratory science, theory
Technology development
Discovery Microlensing Mission
Spitzer transit followup
JWST transit followupKepler
Astrometric mission
IR Characterization
Visible CharacterizationExozodi characterization
Ground-based
Existing Missions
Proposed Missions
Recommended Programs, Missions and Activities
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General doppler vs eta_e
Constructing figures of merit for different techniques: exampleLo
g(m
ass)
Log(semi-major axis)
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Observations of planet-forming and debris disks
, JWST
Note that additional axes (such as surface brightness sensitivity) are required to evaluate differing capabilities between, eg., ground-based and JWST.
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Structure of the Report• 1. Executive Summary• 2. The scientific and philosophical significance of detecting other Earths• 3. Goals and Methodologies for detecting and characterizing extrasolar planets• 4. Findings of the Exoplanet Task Force• 5. Exoplanet detection scenarios from the present to detect/char other Earths• 6. Recommendations of the Exoplanet Task Force • 7. State of knowledge of extrasolar planets• 8. Figures of merit for exoplanet detection/characterization• 9. Technique performance projections…(0-5), (6-10), (11-15) years• A. RV• B. Astrometry• C. Transit• D. Microlensing• E. Coronography• F. Interferometry• G. Indirect inference via debris disk properties• 10. Laboratory, theory, and technology investments required• 11. References• 12. Acknowledgments• 13. Technical Appendix
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Conclusions
1. The plan addresses the key questions in exoplanet research:Are there habitable planets around other stars?What is the architecture of planetary systems?How do planets fit in to the process of star formation?
2. The plan provides the opportunity for early discoveries and risk reduction; spaceborne coronagraphy is significantly simplified.
3. Plan depends on a balance of ground- and space; existing and future assets
4. Plan is flexible to surprises, failures and new discoveries.
4. Plan is already streamlined in cost but can be stretched out