WFIRST Exoplanet Imaging: Click to edit Master title style Datacubes, Community Challenges, and the Starshade Study W F I R S T Dr. Margaret Turnbull, SETI Institute Carl Sagan Center for the Study of Life in the Universe
Click to edit WFIRST Master Coronagraph title style SIT Turnbull Team Members Dr. Margaret Turnbull (SETI Institute) David Ciardi (NExScI / Caltech) Hannah Jang-Condell (Wyoming) Stephen Kane (SFSU) Nikku Madhusudhan (Cambridge) Aki Roberge, Avi Mandell, Michael McElwain (NASA GSFC) Stuart Shaklan, Renyu Hu (JPL) Chris Stark, Laurent Pueyo, William Sparks (STScI) Philip Hinz (Arizona)
Turnbull SIT Click to edit Master title style Target Stars Team C p WFIRST Coronagraph SIT Synergy Baseline Performance R p vs T eq Macintosh SIT Planet Atmospheres Team System Descriptions 2016 DELIVERABLE Truth Data Team Build Known, Hypothetical Planetary Systems with Dust, Background Spectral Library Data Cubes Instrument Simulator Team Simulated Raw Data SRD Team Create WFIRST Coronagraph Scientific Requirements Science Yield Conduct Blind Community Data Challenges In-House Source Extraction and Spectral Retrieval
WFIRST Coronagraph SIT Synergy Turnbull SIT Click to edit Master title style Baseline Performance Macintosh SIT IWA, Fp/F*, eta_planet DRM Team 2016 DELIVERABLE SRD Team Create WFIRST Coronagraph Scientific Requirements Science Yield
Click Planets to edit of Interest: Master title WFIRST style Detection Space Minimum Detectable Planet Size (Earth Radii) 10 1 0.1 V E planets at quadrature, A B =0.3, 100 mas IWA, 1.6 OWA 0.1 1 10 Separation, in units of Earth-Equivalent Insolation Distance Traditional Habitable Zone J Image Credit: M. Turnbull S
Click Planets to edit Around Master Other title Targets: style WFIRST Bands ß EARTHS à R-I B-V
Click to edit Master title style Finding the Needles in the Haystacks Spectral image cubes: 0.3 µm 2.5 µm Contain star, planets, consistent dust Option to add galactic & extragalactic background sources Solar System w/out Sun λ = 0.55 µm Jupiter Neptune Venus Mars Earth 30 AU Inner 12 AU x 12 AU Credit: A. Roberge & the Haystacks team
Click to edit Master title style Potentially Serious Problem: At V ~ 27 th magnitude, WFIRST will also detect the deep background.
Click to edit Master title style Stellar Target Data + Known and Hypothetical Planets + WFIRST CGI: Preparing for Discovery Spectral Data Cubes Blind Retrieval Exercises: Community Challenges and In-House Studies Dust + Astrophysical Background Instrument Response Simulator
Click to edit Mission yieldmaster calculations title style Observational Requirements Astrophysical Constraints Stark et al. (2014)! Stark et al. (2015)! Technical Requirements ηplanet Central wavelength Telescope diameter ηexozodi Total bandpass Contrast Planet sizes Albedos Spectral resolution Signal-to-Noise Contrast floor Inner working angle Phase functions Observing strategy Outer working angle Total throughput Planet Flux / Star Flux 10 7 0.8 AU Jupiter 2 AU Jupiter Water world, 100% clouds 1 AU Neptune Jupiter Sub Neptune (2 REarth) Super Earth (1.4 REarth) Earth 10 8 Overheads 10 9 10 10 0.4 0.5 0.6 0.7 0.8 Wavelength (µm) 0.9 1.0 Design reference mission (DRM)
Click to edit Master title style Exoplanet Exploration Program
Click Exo-S to Team edit Members Master title style STDT S. Seager, Chair (MIT) M. Thomson (NASA-JPL) M. Turnbull (GSI) W. Sparks (STScI) S. Shaklan (NASA-JPL) A. Roberge (NASA-GSFC) M. Kuchner (NASA-GSFC) N. J. Kasdin (Princeton) S. Domagal-Goldman (NASA- GSFC) W. Cash (Colorado) JPL Design Team K. Warfield, Lead D. Lisman C. Heneghan S. Martin D. Scharf R. Trabert D. Webb E. Cady R. Baran P. Zarifian S. Krach B. Hirsch Exo-S Final Report to NASA APS - March 18, 2015
Starshade Basics Click to edit Master title style Inner Working Angle (IWA) Telescope aperture diameter 2.4 m 25 to 50 Mm separation 30 m or 34 m diameter starshade PRO: Contrast and IWA decoupled from telescope aperture size PRO: No outer working angle PRO: Few reflections = high throughput, broad wavelength bandpass PRO: Starlight does NOT enter telescope High quality telescope not required, wavefront correction unnecessary CON? Retargeting requires long starshade slews (days to weeks) Exo-S Final Report to NASA APS - March 18, 2015
Click A WFIRST-Starshade to edit Master title Rendezvous style Mission Starshade launches for a rendezvous with an existing telescope Telescope: WFIRST/AFTA 2.4-m diameter Starshade: 34 m diameter Orbit: Earth-Sun L2 (assumption for the purposes of the Exo-S study) Retargeting: by the starshade spacecraft with chemical propulsion Three year Class C mission Minimal impact to current mission design No stringent requirements are imposed on the WFIRST/AFTA spacecraft No new instrument, only modification to the existing coronagraph Exo-S Final Report to NASA APS - March 18, 2015
Click Take-Away to edit Message Master title style WFIRST/AFTA can be leveraged for a unique and timely opportunity Rendezvous Mission can access up to 50 unique target stars for exoearths in the habitable zone Minimal modification needed for starshade readiness Starshade technology is on track for TRL-5 by 2017 and for new start by 2018, but not fully funded Mission cost ~ $627M, CATE raised no issues with schedule Exo-S Final Report to NASA APS - March 18, 2015