The Missing Link: Connecting Exoplanets and Galactic ...
Transcript of The Missing Link: Connecting Exoplanets and Galactic ...
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The Missing Link: Connecting Exoplanets and Galactic Chemical Evolution via
Stellar Abundances
David Coria1, Ian Crossfield1, Joshua Lothringer21Department of Physics & Astronomy, University of Kansas, Lawrence, KS, USA
2Department of Physics & Astronomy, Johns Hopkins University, Baltimore, MD, USA
David Coria || Exoplanet Explorers Science Series
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Overview
1. Discuss the significance of stellar abundances
2. Data Processing + Isotopic Abundance calculations
3. Next Steps
David Coria || Exoplanet Explorers Science Series1
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Overview
David Coria || Exoplanet Explorers Science Series
1. Discuss the significance of stellar abundances
2. Data Processing + Isotopic Abundance calculations
3. Next Steps
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Overview
David Coria || Exoplanet Explorers Science Series
1. Discuss the significance of stellar abundances
2. Data Processing + Isotopic Abundance calculations
3. Next Steps
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Why study abundances?
1) Elemental enrichment helps us study: star formation, age constraints, interior modeling, planetary system formation, planet habitability
2) Can compare stellar abundances to: local ISM, YSOs, and GCE models
Stellar chemical properties carry an ABUNDANCE of info!
David Coria || Exoplanet Explorers Science Series
Image via Encyclopedia of Astrobiology
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Elemental Abundances: C & O
C/O Ratio: volatile elements; ice + gas + rock chemistry; exoplanet atmospheres
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Credit: Christine Daniloff/MIT, Julien de Wit Credit: Engine House VFX, At-Bristol Science Centre, University of Exeter.
Volatile Analysis via Transmission Spectroscopy WASP-121b: Stratosphere Detection
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Elemental Abundances: Mg & Si
Mg/Si Ratio: rock chemistry, geology; exoplanet interiors
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Credit: Jeremy Kemp
Differentiation!Olivine:
(Mg2, Fe2)SiO4
Pyroxene: XY(Si,Al)2O6
X = Ca, Na, Fe, MgY = Cr, Al, Fe. Mg, Co …
Credit: Rob LavinskyCredit: Rob Lavinsky
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Elemental Abundances: C & O, Mg & Si
It’s important to look for C/O and Mg/Si ratios significantly different from what we know!!!
David Coria || Exoplanet Explorers Science Series
Meadows+ 2018
Brewer & Fischer 2016
C & O in a model transit spectrum: Distribution of Mg/Si Ratios:
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Why study abundances?
1) Elemental enrichment helps us study: star formation, age constraints, interior modeling, planetary system formation, planet habitability
2) Can compare stellar abundances to: local Interstellar Medium (ISM), Young Stellar Objects (YSOs), and Galactic Chemical Evolution (GCE) models
Stellar chemical properties carry an ABUNDANCE of info!
Image via Phys.org
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Galactic Chemical Evolution (GCE) Models
+ tim
e
M-Dwarfs (Crossfield+ 2019):
Young Stellar Objects:
Kobayashi (2011) GCE Model:Proposed GCE Correction:
Sun
-----------
Kob
ayas
hi (2
011)
; Cro
ssfie
ld e
t al.
(201
9)
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Short-Term Goal: Isotopic Abundances
High-resolution spectroscopy allows for isotopic abundance analysis; even in M-dwarfs with low S/N spectra + molecular line contamination!!!
Task: Calculate CO isotopic abundances in 6 solar twin stars AND:moving group stars, cool binaries, field M-dwarfs, JWST-targeted exoplanet host stars
David Coria || Exoplanet Explorers Science Series
Crossfield+ (2019)
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Why Solar Twins?
What star do we know the BEST???Hint: Name rhymes with “Fun”
Generating model spectra is far easier for solar twins than for other stars!
Solar twins are hot enough that we don’t see the molecular absorption present in cooler KM
dwarfs
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Credits: NASA/SDO/Goddard Space Flight Center
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Solar Twin Sample
O0(hot) B A F G K M9(cool)
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orm
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lux
Solar Twin Spectra
Star Spectral Type
T_eff(K)
Radius(xSol)
Age(Gyr)
ST #1 G5V 5838 0.96 2.42ST #2 G4V 5758 0.95 5.51ST #3 G8V 5848 1.0 1.01ST #4 G2V 5683 0.96 3.67ST #5 G2V 5814 1.03 3.09ST #6 G3V 5694 1.04 6.66Sun G2V 5780 1.0 4.603
Wavelength (um)*Dos Santos+ 2016
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Calculating Isotopic Abundances: Step 1
Step 1: Identify CO absorption lines!!!
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Goal: Measure isotopologue abundances (12C16O, 13C16O, 12C18O) to determine isotopic abundance ratios
(12C/13C, 18O/16O)
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Note: Isotopologue is to Molecule what Isotope is to Atom*Different mass numbers
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12CO, 13CO, and C18O lines from HITRAN
107 different CO lines in this MIR region!!!
41 12CO lines34 13CO lines32 C18O lines
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Solar Model + CO Lines
Wavelength Range [4.6 um, 4.7um]
Nor
mal
ized
Flu
x
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Identify Useable LinesRemove lines obscured by tellurics and lines that are out of our
instrument’s range.
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Solar Twin #4 Reduced Spectrum Solar Twin #6 Reduced Spectrum
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Identify Useable Lines
Remove lines that are dominated by stronger spectral features!
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Solar Twin #2 Reduced Spectrum Solar Twin #4 Reduced Spectrum
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Calculating Isotopic Abundances: Step 2
Step 2: Snip the CO absorption features out of the solar twin spectrum and stack to create a single line profile
Step 2b: Repeat for solar models w/ 0x, 1/3x, 1x, and 3x solar CO
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Snipping Out the Absorption Features
Full Spectrum: Snip: _______ _______
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Creating a Single Line Profile
Velocity (km/s)
Nor
mal
ized
Flu
x In
tens
ity
Stacked Absorption Lines (13CO)
𝑣 =𝜆 − 𝜆!𝜆!
𝑐David Coria || Exoplanet Explorers Science Series
Sample Single Line Profile: (13CO)
Wavelength to Velocity:
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Calculating Isotopic Abundances: Step 3
Step 3: Compare single line profiles (Solar Twin vs. Models)
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13CO Abundance Plots!!!
David Coria || Exoplanet Explorers Science Series
Coria+ in prep.
ST #1: Single Line Profile ST #2: Single Line Profile
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13CO Abundance Plots!!!
David Coria || Exoplanet Explorers Science Series
Coria+ in prep.
ST #3: Single Line Profile ST #4: Single Line Profile
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13CO Abundance Plots!!!
David Coria || Exoplanet Explorers Science Series
Coria+ in prep.
ST #5: Single Line Profile ST #6: Single Line Profile
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Calculating Isotopic Abundances: Step 4
Step 4: Derive final abundance values using chi-squared fit tests
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Using Chi-Squared Fit Tests for a Final Value
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ST #4: Single Line Profile
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[1.33]
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Final Abundances + Additional Parameters
***Table from Earlier
David Coria || Exoplanet Explorers Science Series
Star Spectral Type
T_eff(K)
Radius(xSol)
Age(Gyr)
ST #1 G5V 5838 0.96 2.42ST #2 G4V 5758 0.95 5.51ST #3 G8V 5848 1.0 1.01ST #4 G2V 5683 0.96 3.67ST #5 G2V 5814 1.03 3.09ST #6 G3V 5694 1.04 6.66Sun G2V 5780 1.0 4.603
*Dos Santos+ 2016
log(Fe/H) log(C/H) log(O/H) 13CO(dex)
C18O(dex)
13CO(dex)
-0.093 -0.05 -0.01 -0.08 ? ?-0.096 -0.11 -0.05 0.28 ? ?0.138 ? ? 0.15 ? ?0.036 -0.02 -0.02 0.12 ? ?0.056 0.02 0.03 -0.13 ? ?0.015 0.03 -0.03 0.12 ? ?
-0.477? -0.358? -0.326? 0.0 0.0 0.0
New! TBD! TBD!
*Dos Santos+ 2016, Brewer & Fischer 2016
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MetallicityElemental
CarbonElemental Oxygen
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Next Steps: Test Correlation
David Coria || Exoplanet Explorers Science Series
Coria+ in prep.
Compare 12CO, 13CO, C18O Abundances with:
• Stellar Age• Metallicity (Fe/H)• Elemental Carbon (C/H)• Elemental Oxygen (O/H)
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Next Steps: Test GCE Models
+ tim
e
M-Dwarfs (Crossfield+ 2019):
Young Stellar Objects:
Kobayashi (2011) GCE Model:Proposed GCE Correction:
Sun
-----------
Kob
ayas
hi (2
011)
; Cro
ssfie
ld e
t al.
(201
9)
David Coria || Exoplanet Explorers Science Series
Compare measurements to GCE models, find/explore any discrepancies
Determine causes for these inconsistencies!
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Next Steps: Isotopic Analysis for Other Stars
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Credit: NASA/JPL-Caltech/T. Pyle
Kepler 16: eclipsing
KM binary
Credit: NASA
Credit: NASA/JPL
Beta Pictoris: A-type host star in the Beta Pictoris moving group
TRAPPIST-1; M-dwarf host star (7 planets)
1) Repeat abundance analysis for different stars: FGK(+M) binaries, moving group stars, field M-dwarfs, and JWST-targeted exoplanet host stars 2) Continue to test abundances for age correlation, GCE model discrepancies, etc…
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Conclusion
• Isotopic Abundances are useful in the study of exoplanet atmospheres/composition AND in the calibration of GCE models.
• Stacked absorption lines allow for us to turn a set of relatively low S/N CO lines into a single CO profile with much higher S/N.
• Next Steps: Continue isotopic abundance analysis for different stars; test correlations and GCE models
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Questions? Contact Me!
Thanks for listening!!! Any questions???
Email: [email protected]
David Coria || Exoplanet Explorers Science Series