Identifying and fitting eclipse maps of exoplanets with cross-validation
Identifying and fitting eclipse maps of exoplanets with cross-validation
Eclipse mapping uses the shape of the eclipse of an exoplanet to measure its two-dimensional structure. Light curves are mostly composed of longitudinal information, with the latitudinal information only contained in the brief ingress and egress of the eclipse. This imbalance can lead to a spuriously confident map, where the longitudinal structure is constrained by out-of-eclipse data and the latitudinal structure is wrongly determined by the priors on the map. We present a new method to address this issue. The method tests for the presence of an eclipse mapping signal using k-fold cross-validation to compare the performance of a simple mapping model to the null hypothesis of a uniform disc. If a signal is found, the method fits a map with more degrees of freedom, optimizing its information content. The information content is varied by penalizing the model likelihood by a factor proportional to the spatial entropy of the map, optimized by cross-validation. We demonstrate this method for simulated data sets then apply it to three observational data sets. The method identifies an eclipse mapping signal for JWST MIRI/LRS observations of WASP-43b but does not identify a signal for JWST NIRISS/SOSS observations of WASP-18b or Spitzer Space Telescope observations of HD 189733b. It is possible to fit eclipse maps to these data sets, but we suggest that these maps are overfitting the eclipse shape. We fit a new map with more spatial freedom to the WASP-43b data set and show a flatter east–west structure than previously derived.
methods: observational, planets and satellites: atmospheres
4350-4368
Hammond, Mark
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Lewis, Neil T
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Boone, Sasha
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Chen, Xueqing
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Mendonça, João M
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Parmentier, Vivien
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Taylor, Jake
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Bell, Taylor
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Santos, Leonardo dos
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Crouzet, Nicolas
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Kreidberg, Laura
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Radica, Michael
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Zhang, Michael
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19 July 2024
Hammond, Mark
9555fec5-3324-4f5c-bc96-863ff17f7242
Lewis, Neil T
558648cf-add3-4402-ac8f-f87eaa153c31
Boone, Sasha
102287e8-a4cc-40f2-919b-41722750b867
Chen, Xueqing
6ce2fe4d-eb57-47ee-aee5-48a32c83daef
Mendonça, João M
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Parmentier, Vivien
32be9aa2-1884-460a-b6cf-6621bfe944ed
Taylor, Jake
477b7444-7642-4193-a5c6-29e610679ad4
Bell, Taylor
f89ea149-e3e1-4643-be2f-ca877ea1f82f
Santos, Leonardo dos
f189d4f0-15ed-4b28-98f1-a7adee308841
Crouzet, Nicolas
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Kreidberg, Laura
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Radica, Michael
e585ff24-53a7-4862-b1e6-de92ba8ce807
Zhang, Michael
e701c792-5679-4549-95e0-2a173f91b04b
Hammond, Mark, Lewis, Neil T, Boone, Sasha, Chen, Xueqing, Mendonça, João M, Parmentier, Vivien, Taylor, Jake, Bell, Taylor, Santos, Leonardo dos, Crouzet, Nicolas, Kreidberg, Laura, Radica, Michael and Zhang, Michael
(2024)
Identifying and fitting eclipse maps of exoplanets with cross-validation.
Monthly Notices Of The Royal Astronomical Society, 532 (4), .
(doi:10.1093/mnras/stae1761).
Abstract
Eclipse mapping uses the shape of the eclipse of an exoplanet to measure its two-dimensional structure. Light curves are mostly composed of longitudinal information, with the latitudinal information only contained in the brief ingress and egress of the eclipse. This imbalance can lead to a spuriously confident map, where the longitudinal structure is constrained by out-of-eclipse data and the latitudinal structure is wrongly determined by the priors on the map. We present a new method to address this issue. The method tests for the presence of an eclipse mapping signal using k-fold cross-validation to compare the performance of a simple mapping model to the null hypothesis of a uniform disc. If a signal is found, the method fits a map with more degrees of freedom, optimizing its information content. The information content is varied by penalizing the model likelihood by a factor proportional to the spatial entropy of the map, optimized by cross-validation. We demonstrate this method for simulated data sets then apply it to three observational data sets. The method identifies an eclipse mapping signal for JWST MIRI/LRS observations of WASP-43b but does not identify a signal for JWST NIRISS/SOSS observations of WASP-18b or Spitzer Space Telescope observations of HD 189733b. It is possible to fit eclipse maps to these data sets, but we suggest that these maps are overfitting the eclipse shape. We fit a new map with more spatial freedom to the WASP-43b data set and show a flatter east–west structure than previously derived.
Text
stae1761
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Accepted/In Press date: 13 July 2024
Published date: 19 July 2024
Keywords:
methods: observational, planets and satellites: atmospheres
Identifiers
Local EPrints ID: 496764
URI: http://eprints.soton.ac.uk/id/eprint/496764
ISSN: 1365-2966
PURE UUID: d6826ea7-b260-46e0-8d57-a86d00ad44bf
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Date deposited: 08 Jan 2025 05:14
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
Mark Hammond
Author:
Neil T Lewis
Author:
Sasha Boone
Author:
Xueqing Chen
Author:
João M Mendonça
Author:
Vivien Parmentier
Author:
Jake Taylor
Author:
Taylor Bell
Author:
Leonardo dos Santos
Author:
Nicolas Crouzet
Author:
Laura Kreidberg
Author:
Michael Radica
Author:
Michael Zhang
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