cheops jwst transits - nexscinexsci.caltech.edu/committees/jwst/cheops_jwst_transits.pdf ·...
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’s first small-class mission
JWST Transit Workshop — Pasadena
David Ehrenreich!CHEOPS Mission Scientist
CHARACTERIZING EXOPLANETS SATELLITE
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0.1!
1!
10!
0.01! 0.1! 1! 10! 100! 1000! 10000!
Plan
et ra
dius
(Ear
th =
1)!
Planet mass (Earth = 1)!
high density
low density
gas giants
ice giants
telluric planets
K-10b (8.8)
K-11f (0.7)
Mass-radius diagram Apparent continuity of masses for exoplanets
K-78b (5.5)
[g cm-3]
C-7b (6.2)
55 Cnc e (4.3)
icy moons
rocky moons
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?
What are exoplanets made of?
ice mantle/volatile envelopethin atmospherehydrogen/helium envelope
solid core (rocks+metals)
?
telluric super-Earths?
ocean planets?
Léger+ 2004 mini Neptunes?
gas dwarfs?
massive core subgiants?
Kepler-11f Lissauer+ 2011
GJ 1214b Charbonneau+ 2009
Corot-7b Léger+ 2009
Kepler-78b Pepe+, Howard+ 2013
55 Cnc e Winn+, Demory+ 2011
GJ 3470b Bonfils+ 2012
HD 149026b Sato+ 2005
Constraints based on bulk densities
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4
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7
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9
10
11
12
1 10 100 1000 10000
V m
agni
tude
Absorption signal of one atmospheric scale height in transmission spectroscopy (ppm)
Which planets are the golden targets for atmospheric characterisation?
HD 189733b
HD 209458b
55 Cnc e
HST 3σ detection limit sodium detection on HD 209458b in 4 transits (Charbonneau+ 2002)
The less dense at given mass, the easier to characterize (Ehrenreich+ 2006)
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Which planets are the golden targets for atmospheric characterisation?
4
5
6
7
8
9
10
11
12 1 10 100 1000 10000
J m
agni
tude
Absorption signal of one atmospheric scale height in transmission spectroscopy (ppm)
HST
• All transiting planets!• Hydrogen-rich atmospheres
JWST 3σ detection limit water detection on HD 209458b in 1 transit (Deming+ 2013)
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Which planets are the golden targets for atmospheric characterisation?
4
5
6
7
8
9
10
11
12 1 10 100 1000 10000
J m
agni
tude
Absorption signal of one atmospheric scale height in transmission spectroscopy (ppm)
HST
• Transiting super-Earths (<10 ME)!• Hydrogen-rich atmospheres
JWST 3σ detection limit water detection on HD 209458b in 1 transit (Deming+ 2013)
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Which planets are the golden targets for atmospheric characterisation?
4
5
6
7
8
9
10
11
12 1 10 100 1000 10000
J m
agni
tude
Absorption signal of one atmospheric scale height in transmission spectroscopy (ppm)
JWST 3σ detection limit water detection on HD 209458b in 1 transit (Deming+ 2013)
• Transiting super-Earths (<10 ME)!• Water-rich atmospheres
HST
Flat spectrum ➡ clouds!12 HST transits (Kreidberg+ 2014)
GJ 1214b
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Targets: bright stars
CHEOPS TESS PLATOAdopted by ESA
(2017)
Better knowledge of the stars Better knowledge of the planets
(2017) Selected by ESA (M3)(2024)
Goal: transiting Earths, more super-Earths, more Neptunes
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What CHEOPS will do:➡ Perform 1st-step characterization of super-Earths & NeptunesMeasure accurate radii & bulk densities of super-Earths & Neptunes orbiting bright stars
➡ Provide golden targets for future atmospheric characterization
How CHEOPS will do it:CHEOPS is a photometer, built to achieve a photometric precision similar to Kepler while observing much brighter stars located almost anywhere on the sky
CHEOPS main science goals
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CHEOPS strategy: follow-up
Detect the transit of known super-Earths
Ground-based RV surveys HARPS, HARPS-N, HIRES, SOPHIE (on going) ESPRESSO (2017)
Measure accurate light curves for Neptunes
Ground-based transit surveys NGTS (2014)
TESS (2017)
K2 (2014)
20% open time (3.5-yr mission)
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CHEOPS legacy
JWST 2018
E-ELT, GMT, TMT
~2020
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What CHEOPS can do for TESS:• Validate TESS long-period candidates• Precise radii & densities for TESS planets: thick atmospheres?
‣Planet parameters vs. cloud correlation?• Obtain long-baseline TTVs for TESS planets
CHEOPS prescreening for JWSTWhat TESS can do for CHEOPS:• Provide targets for CHEOPS follow-up
Maximize science impact of JWST transit
observations
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CHEOPS requirements
• Science
➡First mission dedicated to exoplanet follow-up
• Cost
➡Total CHEOPS cost ~ 100 M€
➡ESA cost < 50 M€ (fixed)
• Schedule
➡Developed and launched within 4 years
ESA’s first small mission
• Platform• Detector• Launch
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CHEOPS in EuropeCHEOPS consortium Small mission, large organization
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CHEOPS in EuropeCHEOPS consortium Small mission, large organization
SwitzerlandMission Lead
Instrument Team Science Operations Center
PI: Prof. Willy Benz, U. Bern
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CHEOPS in Europe
GermanyFocal Plane Assembly
ItalyOptics
AustriaDigital Processing Unit
HungaryRadiators
BelgiumBaffle
SwitzerlandMission Lead
Instrument Team Science Operations Center
CHEOPS consortium Small mission, large organization
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CHEOPS in Europe
SwitzerlandMission Lead
Instrument Team Science Operations Center
GermanyFocal Plane Assembly
ItalyOptics
AustriaDigital Processing Unit
HungaryRadiators
BelgiumBaffle
SwedenData simulator
UKMission Operations Center
FranceData Reduction Software
PortugalMission Planning, Archive,
& Data Reduction Software
CHEOPS consortium Small mission, large organization
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SwitzerlandUniversity of Bern (project lead)!University of Geneva!Swiss Space Center (EPFL)!ETH Zürich
Austria Institut für Weltraumforschung, Graz
Belgium Centre Spatial de Liège!Université de Liège
France Laboratoire d’astrophysique de Marseille
Germany DLR Institute for Planetary Research
Hungary Konkoly Observatory
ItalyOsservatorio Astrofisico di Catania – INAF!Osservatorio Astronomico di Padova – INAF!Università di Padova
Portugal Centro de Astrofisica da Universidade do Porto!Deimos Engenharia
Sweden Onsala Space Observatory, Chalmers University!University of Stockholm
UK University of Warwick
CHEOPS in EuropeCHEOPS consortium Small mission, large organization
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CHEOPS spacecraft
cover baffle
telescoperadiators
star tracker platform
Total weight: 250 kgTotal length: 1.3 m Two competing platform concepts
instrument
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radiator supportand
optics hood
radiator isostaticmount
radiator
optical bench
secondary mirror
CHEOPS instrument system
Telescope ∅: 32 cm Total weight: 60 kgprimary mirror
BEO with folding mirror
CCD & FPA
structure tube
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telescopeFoV: 20’ CCD 1k x 1k
subarray image200×200 pixels
(4 arcmin2)
defocused PSF
Pointing stability: 8’’ (rms) jitterp-flat precision: 0.1% pixel-to-pixelCHEOPS photometric precision
e2v
➠
stacked & downloadedto the ground
1 min-1
30 pixels (30”)
CHEOPS data acquisition
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CHEOPS performances
• CHEOPS will measure highly accurate signals➡ 20 ppm accuracy over 6 hours for G-type stars with V < 9 mag➡ 85 ppm accuracy over 3 hours for K-type stars with V < 12 mag
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• CHEOPS can point at any location over more than 50% of the sky ➡ 50% of the whole sky shall be accessible for 50 days (>50% efficiency) ➡ 25% of the whole sky shall be accessible for 13 days (>80% efficiency)
• CHEOPS will measure highly accurate signals for stars with 6 < V < 12➡ 20 ppm accuracy over 6 hours for G-type stars with V < 9➡ 85 ppm accuracy over 3 hours for K-type stars with V < 12
CHEOPS performances
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600—800 km
CHEOPS orbit
Sun
120°
OBS
ERVA
TIO
NS 35°
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CHEOPS sky
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• CHEOPS is Europe’s next exoplanet mission (2017)
• CHEOPS is a follow-up machine,Knowing when to look at a star makes CHEOPS extremely efficient➡ provide a first-step characterization of low-mass exoplanets➡ collect the golden targets for future in-depth characterization➡ 20% open time for high-precision photometry science
• CHEOPS Definition Study Reporthttp://sci.esa.int/cosmic-vision/53541-cheops-definition-study-report-red-book/
CHEOPS summary
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PLATO(2017)(2024)