Chasing rainbows and ocean glints: Inner working angle constraints for the Habitable Worlds Observatory

Sophia R. Vaughan; Timothy D. Gebhard; Kimberly Bott; Sarah L. Casewell; Nicolas B. Cowan; David S. Doelman; Matthew Kenworthy; Johan Mazoyer; Maxwell A. Millar-Blanchaer; Victor J.H. Trees; Daphne M. Stam; Olivier Absil; Lisa Altinier; Pierre Baudoz; Ruslan Belikov; Alexis Bidot; Jayne L. Birkby; Markus J. Bonse; Bernhard Brandl; Alexis Carlotti; Elodie Choquet; Dirk van Dam; Niyati Desai; Kevin Fogarty; J. Fowler; Kyle van Gorkom; Yann Gutierrez; Olivier Guyon; Sebastiaan Y. Haffert; Olivier Herscovici-Schiller; Adrien Hours; Roser Juanola-Parramon; Evangelia Kleisioti; Lorenzo König; Maaike van Kooten; Mariya Krasteva; Iva Laginja; Rico Landman; Lucie Leboulleux; David Mouillet; Mamadou N’Diaye; Emiel H. Por; Laurent Pueyo; Frans Snik

doi:10.1093/mnras/stad2127

Chasing rainbows and ocean glints: Inner working angle constraints for the Habitable Worlds Observatory

Sophia R. Vaughan, Timothy D. Gebhard, Kimberly Bott, Sarah L. Casewell, Nicolas B. Cowan, David S. Doelman, Matthew Kenworthy, Johan Mazoyer, Maxwell A. Millar-Blanchaer, Victor J.H. Trees, Daphne M. Stam, Olivier Absil, Lisa Altinier, Pierre Baudoz, Ruslan Belikov, Alexis Bidot, Jayne L. Birkby, Markus J. Bonse, Bernhard Brandl, Alexis CarlottiElodie Choquet, Dirk van Dam, Niyati Desai, Kevin Fogarty, J. Fowler, Kyle van Gorkom, Yann Gutierrez, Olivier Guyon, Sebastiaan Y. Haffert, Olivier Herscovici-Schiller, Adrien Hours, Roser Juanola-Parramon, Evangelia Kleisioti, Lorenzo König, Maaike van Kooten, Mariya Krasteva, Iva Laginja, Rico Landman, Lucie Leboulleux, David Mouillet, Mamadou N’Diaye, Emiel H. Por, Laurent Pueyo, Frans Snik

Optical Sciences

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

NASA is engaged in planning for a Habitable Worlds Observatory (HabWorlds), a coronagraphic space mission to detect rocky planets in habitable zones and establish their habitability. Surface liquid water is central to the definition of planetary habitability. Photometric and polarimetric phase curves of starlight reflected by an exoplanet can reveal ocean glint, rainbows, and other phenomena caused by scattering by clouds or atmospheric gas. Direct imaging missions are optimized for planets near quadrature, but HabWorlds’ coronagraph may obscure the phase angles where such optical features are strongest. The range of accessible phase angles for a given exoplanet will depend on the planet’s orbital inclination and/or the coronagraph’s inner working angle (IWA). We use a recently created catalog relevant to HabWorlds of 164 stars to estimate the number of exo-Earths that could be searched for ocean glint, rainbows, and polarization effects due to Rayleigh scattering. We find that the polarimetric Rayleigh scattering peak is accessible in most of the exo-Earth planetary systems. The rainbow due to water clouds at phase angles of ∼20^◦ − 60^◦ would be accessible with HabWorlds for a planet with an Earth equivalent instellation in ∼46 systems, while the ocean glint signature at phase angles of ∼130^◦ − 170^◦ would be accessible in ∼16 systems, assuming an IWA = 62 mas (3λ/D). Improving the IWA = 41 mas (2λ/D) increases accessibility to rainbows and glints by factors of approximately 2 and 3, respectively. By observing these scattering features, HabWorlds could detect a surface ocean and water cycle, key indicators of habitability.

Original language	English (US)
Pages (from-to)	5477-5485
Number of pages	9
Journal	Monthly Notices of the Royal Astronomical Society
Volume	524
Issue number	4
DOIs	https://doi.org/10.1093/mnras/stad2127
State	Published - Oct 1 2023

Keywords

instrumentation: high angular resolution
planets
planets and satellites: atmospheres
satellites: terrestrial planets

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/stad2127

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Vaughan, S. R., Gebhard, T. D., Bott, K., Casewell, S. L., Cowan, N. B., Doelman, D. S., Kenworthy, M., Mazoyer, J., Millar-Blanchaer, M. A., Trees, V. J. H., Stam, D. M., Absil, O., Altinier, L., Baudoz, P., Belikov, R., Bidot, A., Birkby, J. L., Bonse, M. J., Brandl, B., ... Snik, F. (2023). Chasing rainbows and ocean glints: Inner working angle constraints for the Habitable Worlds Observatory. Monthly Notices of the Royal Astronomical Society, 524(4), 5477-5485. https://doi.org/10.1093/mnras/stad2127

Vaughan, SR, Gebhard, TD, Bott, K, Casewell, SL, Cowan, NB, Doelman, DS, Kenworthy, M, Mazoyer, J, Millar-Blanchaer, MA, Trees, VJH, Stam, DM, Absil, O, Altinier, L, Baudoz, P, Belikov, R, Bidot, A, Birkby, JL, Bonse, MJ, Brandl, B, Carlotti, A, Choquet, E, van Dam, D, Desai, N, Fogarty, K, Fowler, J, van Gorkom, K, Gutierrez, Y, Guyon, O, Haffert, SY, Herscovici-Schiller, O, Hours, A, Juanola-Parramon, R, Kleisioti, E, König, L, van Kooten, M, Krasteva, M, Laginja, I, Landman, R, Leboulleux, L, Mouillet, D, N’Diaye, M, Por, EH, Pueyo, L & Snik, F 2023, 'Chasing rainbows and ocean glints: Inner working angle constraints for the Habitable Worlds Observatory', Monthly Notices of the Royal Astronomical Society, vol. 524, no. 4, pp. 5477-5485. https://doi.org/10.1093/mnras/stad2127

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abstract = "NASA is engaged in planning for a Habitable Worlds Observatory (HabWorlds), a coronagraphic space mission to detect rocky planets in habitable zones and establish their habitability. Surface liquid water is central to the definition of planetary habitability. Photometric and polarimetric phase curves of starlight reflected by an exoplanet can reveal ocean glint, rainbows, and other phenomena caused by scattering by clouds or atmospheric gas. Direct imaging missions are optimized for planets near quadrature, but HabWorlds{\textquoteright} coronagraph may obscure the phase angles where such optical features are strongest. The range of accessible phase angles for a given exoplanet will depend on the planet{\textquoteright}s orbital inclination and/or the coronagraph{\textquoteright}s inner working angle (IWA). We use a recently created catalog relevant to HabWorlds of 164 stars to estimate the number of exo-Earths that could be searched for ocean glint, rainbows, and polarization effects due to Rayleigh scattering. We find that the polarimetric Rayleigh scattering peak is accessible in most of the exo-Earth planetary systems. The rainbow due to water clouds at phase angles of ∼20◦ − 60◦ would be accessible with HabWorlds for a planet with an Earth equivalent instellation in ∼46 systems, while the ocean glint signature at phase angles of ∼130◦ − 170◦ would be accessible in ∼16 systems, assuming an IWA = 62 mas (3λ/D). Improving the IWA = 41 mas (2λ/D) increases accessibility to rainbows and glints by factors of approximately 2 and 3, respectively. By observing these scattering features, HabWorlds could detect a surface ocean and water cycle, key indicators of habitability.",

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T2 - Inner working angle constraints for the Habitable Worlds Observatory

AU - Vaughan, Sophia R.

AU - Gebhard, Timothy D.

AU - Bott, Kimberly

AU - Casewell, Sarah L.

AU - Cowan, Nicolas B.

AU - Doelman, David S.

AU - Kenworthy, Matthew

AU - Mazoyer, Johan

AU - Millar-Blanchaer, Maxwell A.

AU - Trees, Victor J.H.

AU - Stam, Daphne M.

AU - Absil, Olivier

AU - Altinier, Lisa

AU - Baudoz, Pierre

AU - Belikov, Ruslan

AU - Bidot, Alexis

AU - Birkby, Jayne L.

AU - Bonse, Markus J.

AU - Brandl, Bernhard

AU - Carlotti, Alexis

AU - Choquet, Elodie

AU - van Dam, Dirk

AU - Desai, Niyati

AU - Fogarty, Kevin

AU - Fowler, J.

AU - van Gorkom, Kyle

AU - Gutierrez, Yann

AU - Guyon, Olivier

AU - Haffert, Sebastiaan Y.

AU - Herscovici-Schiller, Olivier

AU - Hours, Adrien

AU - Juanola-Parramon, Roser

AU - Kleisioti, Evangelia

AU - König, Lorenzo

AU - van Kooten, Maaike

AU - Krasteva, Mariya

AU - Laginja, Iva

AU - Landman, Rico

AU - Leboulleux, Lucie

AU - Mouillet, David

AU - N’Diaye, Mamadou

AU - Por, Emiel H.

AU - Pueyo, Laurent

AU - Snik, Frans

PY - 2023/10/1

Y1 - 2023/10/1

N2 - NASA is engaged in planning for a Habitable Worlds Observatory (HabWorlds), a coronagraphic space mission to detect rocky planets in habitable zones and establish their habitability. Surface liquid water is central to the definition of planetary habitability. Photometric and polarimetric phase curves of starlight reflected by an exoplanet can reveal ocean glint, rainbows, and other phenomena caused by scattering by clouds or atmospheric gas. Direct imaging missions are optimized for planets near quadrature, but HabWorlds’ coronagraph may obscure the phase angles where such optical features are strongest. The range of accessible phase angles for a given exoplanet will depend on the planet’s orbital inclination and/or the coronagraph’s inner working angle (IWA). We use a recently created catalog relevant to HabWorlds of 164 stars to estimate the number of exo-Earths that could be searched for ocean glint, rainbows, and polarization effects due to Rayleigh scattering. We find that the polarimetric Rayleigh scattering peak is accessible in most of the exo-Earth planetary systems. The rainbow due to water clouds at phase angles of ∼20◦ − 60◦ would be accessible with HabWorlds for a planet with an Earth equivalent instellation in ∼46 systems, while the ocean glint signature at phase angles of ∼130◦ − 170◦ would be accessible in ∼16 systems, assuming an IWA = 62 mas (3λ/D). Improving the IWA = 41 mas (2λ/D) increases accessibility to rainbows and glints by factors of approximately 2 and 3, respectively. By observing these scattering features, HabWorlds could detect a surface ocean and water cycle, key indicators of habitability.

AB - NASA is engaged in planning for a Habitable Worlds Observatory (HabWorlds), a coronagraphic space mission to detect rocky planets in habitable zones and establish their habitability. Surface liquid water is central to the definition of planetary habitability. Photometric and polarimetric phase curves of starlight reflected by an exoplanet can reveal ocean glint, rainbows, and other phenomena caused by scattering by clouds or atmospheric gas. Direct imaging missions are optimized for planets near quadrature, but HabWorlds’ coronagraph may obscure the phase angles where such optical features are strongest. The range of accessible phase angles for a given exoplanet will depend on the planet’s orbital inclination and/or the coronagraph’s inner working angle (IWA). We use a recently created catalog relevant to HabWorlds of 164 stars to estimate the number of exo-Earths that could be searched for ocean glint, rainbows, and polarization effects due to Rayleigh scattering. We find that the polarimetric Rayleigh scattering peak is accessible in most of the exo-Earth planetary systems. The rainbow due to water clouds at phase angles of ∼20◦ − 60◦ would be accessible with HabWorlds for a planet with an Earth equivalent instellation in ∼46 systems, while the ocean glint signature at phase angles of ∼130◦ − 170◦ would be accessible in ∼16 systems, assuming an IWA = 62 mas (3λ/D). Improving the IWA = 41 mas (2λ/D) increases accessibility to rainbows and glints by factors of approximately 2 and 3, respectively. By observing these scattering features, HabWorlds could detect a surface ocean and water cycle, key indicators of habitability.

KW - instrumentation: high angular resolution

KW - planets

KW - planets and satellites: atmospheres

KW - satellites: terrestrial planets

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Chasing rainbows and ocean glints: Inner working angle constraints for the Habitable Worlds Observatory

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