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New Worlds Imager
Webster CashUniversity of Colorado
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New Worlds ImagerAn Alternative to TPF
Webster Cash University of ColoradoJim GreenEric SchindhelmNishanth RajanJeremy Kasdin Princeton UniversityBob VanderbeiDavid SpergelEd TurnerSara Seager Carnegie Institution – WashingtonAlan Stern Southwest Research Institute – BoulderSteve Kilston Ball AerospaceErik WilkinsonMike LeiberJim LeitchJon Arenberg Northrop GrummanRon PolidanChuck LillieWillard Simmons MIT
and growing…
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Exo-Planets
• Exo-planets are the planets that circle stars other than our Sun.
• There are probably 10,000 exo-planets within 10pc (30 light years) of the Earth.
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Are Any Habitable??
Are Any Occupied???
To Be Human Is to Want to Know
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Some Poetry (?)
Certain knowledge of
a destination
could drive future generations
to cross
the awful gulf of interstellar space.
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The Problem with Exo-Planet Studies
• Planets are lost in the glare of parent star.
• The Earth as viewed from light years is10 billion times fainter than the Sun.
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Terrestrial Planet Finder
• Telescopes must be PERFECT to suppress scatter: λ/5000 surface,
99.999% reflection uniformity
• TPF is very difficult
• Is there any easier way?
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New Worlds Imager
ConventionalTelescope
Starshade
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A Pinhole Camera Meets The Requirements:Perfect TransmissionNo Phase ErrorsScatter only from edges – can be very lowDiffraction Issues Remain
Large Distance Set by 0.01 arcsec requirementdiffraction: λ/D = .01” D = 10m @500nmgeometric: F = D/tan(.01”) = 180,000km
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Focal Plane
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View Back Toward Starshade
Background Stars & Zodiacal Light
Starshade
Diffracted Starlightaround edge fallsoutside slit
SpectrographEntrance Slit(Projected)
Planet Light
Background Stars & Zodiacal Light
Starshade
Diffracted Starlightaround edge fallsoutside slit
SpectrographEntrance Slit(Projected)
Planet Light
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Starshade Aperture Shapes
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View Dark Side of StarshadeTarget
Sun
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“Standard” Observatory Views Starshade
~1” resolution or somewhat better (not necessarily diffraction limited)
High efficiency, low noise spectrograph (e.g. COS)
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Reduces Noise Almost to Zero
Detector Noise (counts)
Diameter (m) Required integration time (days) to get 100,000 counts
MCPglass MCPSi CCD
1 28 363 15 604800
5 1.1 15 0.6 24192
10 .3 4 0.1 6070
15 .1 2 0.06 2700
20 .07 1 0.04 1512
Assumptions: Fλ~3e-9 photons/cm2/sec/Å for Earth at 10pc, system efficiency ~0.35, λ=5000Å. Background calculations done using MCPglass=0.5 counts/cm2/sec, MCPsilicon=0.02 counts/cm2/sec, CCD=1e- read noise and readout every 20 minutes, and a 0.03x1 mm resolution element with 0.010 mm pixels.
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Orbital ConsiderationsNeed Study
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Planet Finding ModeSolar System at 10pc
Mars
Venus
Earth
Jupiter
Earth
Venus
Survey to 7AU Survey Habitable Zone
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Inverse Pinhole OcculterPinspeck
• Smaller Starshade– Create null zone, image around occulter
• 10m shade, 1m diffraction limited telescope and 20,000km separation would work
• Observe entire planetary system at once• Highly affordable. Could build today
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Predecessors
BOSS
http://umbras.org/
Starkman showed that starlightcould be reduced by 10,000x.
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Pinspeck with 1m Telescope
50,000 seconds 400,000 seconds
Jupiter
Earth
Venus
Mars
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Pinspeck with 8m Telescope
50,000 seconds
Earth
Mars
Halley’s Comet
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Simulated Data Earth at 10pc
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Spectroscopic Biomarkers
Water Necessary for habitabilityOxygen Free oxygen results only from active plant lifeOzone Results from free oxygenNitrous Oxide Another gas produced by living organismsMethane Life indicator if oxygen also presentVegetation Red edge of vegetation at 750nm
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Photometry
Photometric Imaging is Possible!
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Pale Blue Planet Mission
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PBP Requirements100km Resolution at 10pc is 0.06 micro-arcseconds
Interferometer requires a 1500km baselineAnd the same collecting area as Keck Telescope in Hawaii
(10 meter diameter)
We can do this right now if we have the will.
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The “Freeway Mission”
From the movie Contact. Dr Arroway gets a brief glimpse of this alien landscape.
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Freeway Requirements
300m resolution at 10 parsecs = 0.02 nano-arcseconds
500,000km baseline
Huge collecting area – one square kilometer
Right now this is impossibly expensive,
but not necessarily tomorrow
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The New Worlds Imager
A simulated exo-planet at 500 km resolution.
Earth at 200km resolution. Oceans, continents and clouds are visible.
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NWI Concept
collector craft1500km
starshades
collector craft
combiner18
0,00
0km
1500km
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Holding the Array
planet collimator
field star collimator
primary collector
to combiner
planet collimator
field star collimator
primary collector
to combiner
planet beams
field star beams
Delay Lines – Mixers - Detectors
planet beams
field star beams
Delay Lines – Mixers - Detectors
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Fits Into NASA Planning
•Identify Earth-like Planets
•Search for oceans
•Search for unambiguous tracers of life
•Study new eco-systems
Life FinderObjective
•Reacquire Earth-like planets
•Perform spectroscopy with λ/δλ > 1000
•Search forH20, O2, N2O,
O3, etc
•Survey dozens of nearby systems
ScienceGoal
InstrumentRequirements
•Suppress starlight to below 10-10
•Separate planets at .01”
•Operate in visible or near IR
•10m class aperture for signal
•High Efficiency Spectrograph
•Low noise detectors
•Two craft
•Shaped aperture in large, deployable light stop
•10m, 1” class telescope with Rowland spectrograph
•Formation flying to ~1m line of sight at 180,000km
•L2 or drift away orbit
MissionRequirements
•HST•JWST•TPF•LISA•SIM
RelevantPredecessors
New Worlds
Observer
New WorldsImager
Pictures of Earth-like Planets with 100km Resolution
•Identify Earth-like Planets
•Search for oceans
•Search for unambiguous tracers of life
•Study new eco-systems
Life FinderObjective
•Reacquire Earth-like planets
•Perform spectroscopy with λ/δλ > 1000
•Search forH20, O2, N2O,
O3, etc
•Survey dozens of nearby systems
ScienceGoal
InstrumentRequirements
•Suppress starlight to below 10-10
•Separate planets at .01”
•Operate in visible or near IR
•10m class aperture for signal
•High Efficiency Spectrograph
•Low noise detectors
•Two craft
•Shaped aperture in large, deployable light stop
•10m, 1” class telescope with Rowland spectrograph
•Formation flying to ~1m line of sight at 180,000km
•L2 or drift away orbit
MissionRequirements
•HST•JWST•TPF•LISA•SIM
RelevantPredecessors
New Worlds
Observer
Imager
Pictures of Earth-like Planets with 100km Resolution
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New Worlds Observer Roadmap
• Pinspecks vs Pinholes• Minimize Size (and hence cost)• Deployment of Starshade• Orbit Tradeoff• Formation Flying• Telescope Design• Simulations and Limitations
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New Worlds Imager Roadmap
• Formation Flying Requirements• Interferometer Design• Image Formation• Pathlength Nulling• Simulations
N.B. NWI is very challenging, but it’s the first true planetimaging architecture for which we can write specifications thatare not ridiculously difficult.
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Size Minimization
• Pinspeck if at all possible• Diffraction dominates signal but drops with
size of starshade.• I have five mathematicians working on the
problem. (N.B. Mathematicians are not used to working on deadlines!)
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Orbital Analysis
At L4, L5 or any Sun-centered orbit, it takes .001N continuous thrust to keep a 1000kg craft in alignment.
Milli-Newton thrusters are now available, and a few square meters of solar panels can power it.
These thrusters can move the starshade to the next target ina day or two. 50 planetary systems per year.
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Formation Flying
1W laser can be seen at 200,000km.
Can track relative to back ground stars.
Craft need to be designed to find eachother and align against sky.
Background Stars & Zodiacal Light
Starshade
Diffracted Starlightaround edge fallsoutside slit
SpectrographEntrance Slit(Projected)
Planet Light
Background Stars & Zodiacal Light
Starshade
Diffracted Starlightaround edge fallsoutside slit
SpectrographEntrance Slit(Projected)
Planet Light
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NIAC: They Bring Good Things To Life
• Press Interest– Publicity Crucial to Shifting Opinions
• Industry Interest– Northrop Grumman Putting in Resources
• Government Interest– White Paper Put Us in NASA Roadmap– Goddard Studying This as Alternative
• TPF Off-ramp?
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Conclusion
• Needs Thorough Study• If No Major Problems Emerge,
then…• We have an exo-planet
observatory concept that can be implemented with today’s technology
• Biggest Problem may be political
By 2011
By 2018