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Hot Rocks Survey I: a possible shallow eclipse for LHS 1478 b

Hot Rocks Survey I: a possible shallow eclipse for LHS 1478 b
Hot Rocks Survey I: a possible shallow eclipse for LHS 1478 b
M dwarf systems offer an opportunity to study terrestrial exoplanetary atmospheres due to their small size and cool temperatures. However, the extreme conditions imposed by these host stars raise question about whether their close-in rocky planets are able to retain any atmosphere at all. The Hot Rocks Survey aims to answer this question by targeting nine different M dwarf rocky planets. Of these, LHS 1478 b orbits an M3-type star, has an equilibrium temperature of T$_{eq}$ = 585 K and receives 21 times Earth's instellation. We observe two secondary eclipses using photometric imaging at 15$\mu$m using the Mid-Infrared Instrument on the James Webb Space Telescope (JWST MIRI) to measure thermal emission from the dayside of the planet. We compare these values to atmospheric models to evaluate potential heat transport and CO$_2$ absorption signatures. We find that a secondary eclipse depth of $138\pm 53$ppm at the expected time for a circular orbit is preferred over a null model at $2.8\sigma$, a moderate detection, though dynamical models do favour a non-eccentric orbit for this planet. The second observation results in a non-detection due to significantly larger unexplained systematics. Based on the first observation alone, we can reject the null hypothesis of the dark (zero Bond albedo) no atmosphere bare rock model with a confidence level of 3.3$\sigma$, though for $A_B=0.2$ the significance decreases to $2.1\sigma$. The tentative secondary eclipse depth is consistent with the majority of atmospheric scenarios we considered, spanning CO$_2$-rich atmospheres with surface pressures from 0.1 to 10 bar. However, we stress that the two observations from our program do not yield consistent results, and more observations are needed to verify our findings. The Hot Rocks Survey serves as a relevant primer for the Director's Discretionary Time (DDT) Rocky Worlds program.
astro-ph.EP, Techniques: photometric, Planets and satellites: atmospheres, Planets and satellites: terrestrial planets
0004-6361
August, P.C.
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Buchhave, L.A.
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Diamond-Lowe, H.
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Mendonça, J.M.
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Gressier, A.
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Rathcke, A.D.
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Allen, N.H.
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Fortune, M.
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Jones, K.D.
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Meier-Valdés, E.A.
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Demory, B.O.
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Espinoza, N.
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Fisher, C.E.
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Gibson, N.P.
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Heng, K.
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Hoeijmakers, J.
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Hooton, M.J.
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Kitzmann, D.
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Prinoth, B.
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Eastman, J.D.
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Barnes, R.
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August, P.C.
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Buchhave, L.A.
09bc47d1-865f-4f71-b25a-51ad6371e3f8
Diamond-Lowe, H.
9ece63ec-71c8-401c-a65e-63ea880407a5
Mendonça, J.M.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Gressier, A.
193b18ed-073d-425a-8bad-26b289160a6c
Rathcke, A.D.
4f2c25a8-9c69-48fb-b6b9-46f3738ed40c
Allen, N.H.
b5fb23b4-efa1-4490-af2d-c05ecd02c9df
Fortune, M.
42398d12-dc72-42d2-a71f-fa275ef488f6
Jones, K.D.
4ec06078-f761-484f-a68b-d3051b6a9444
Meier-Valdés, E.A.
84a42a9a-726b-496c-bda6-446262a564cd
Demory, B.O.
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Espinoza, N.
9568eed4-6b09-488c-9622-596302c0d842
Fisher, C.E.
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Gibson, N.P.
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Heng, K.
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Hoeijmakers, J.
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Hooton, M.J.
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Kitzmann, D.
af1659b8-c27f-4d1b-b7a2-afaeb944af07
Prinoth, B.
670e707e-190e-41bf-bcf5-9a46cafa8cd3
Eastman, J.D.
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Barnes, R.
c49bf281-6e72-4a19-8092-0ddb4eee9545

August, P.C., Buchhave, L.A., Diamond-Lowe, H., Mendonça, J.M., Gressier, A., Rathcke, A.D., Allen, N.H., Fortune, M., Jones, K.D., Meier-Valdés, E.A., Demory, B.O., Espinoza, N., Fisher, C.E., Gibson, N.P., Heng, K., Hoeijmakers, J., Hooton, M.J., Kitzmann, D., Prinoth, B., Eastman, J.D. and Barnes, R. (2025) Hot Rocks Survey I: a possible shallow eclipse for LHS 1478 b. A&A, 695, [A171]. (doi:10.1051/0004-6361/202452611).

Record type: Article

Abstract

M dwarf systems offer an opportunity to study terrestrial exoplanetary atmospheres due to their small size and cool temperatures. However, the extreme conditions imposed by these host stars raise question about whether their close-in rocky planets are able to retain any atmosphere at all. The Hot Rocks Survey aims to answer this question by targeting nine different M dwarf rocky planets. Of these, LHS 1478 b orbits an M3-type star, has an equilibrium temperature of T$_{eq}$ = 585 K and receives 21 times Earth's instellation. We observe two secondary eclipses using photometric imaging at 15$\mu$m using the Mid-Infrared Instrument on the James Webb Space Telescope (JWST MIRI) to measure thermal emission from the dayside of the planet. We compare these values to atmospheric models to evaluate potential heat transport and CO$_2$ absorption signatures. We find that a secondary eclipse depth of $138\pm 53$ppm at the expected time for a circular orbit is preferred over a null model at $2.8\sigma$, a moderate detection, though dynamical models do favour a non-eccentric orbit for this planet. The second observation results in a non-detection due to significantly larger unexplained systematics. Based on the first observation alone, we can reject the null hypothesis of the dark (zero Bond albedo) no atmosphere bare rock model with a confidence level of 3.3$\sigma$, though for $A_B=0.2$ the significance decreases to $2.1\sigma$. The tentative secondary eclipse depth is consistent with the majority of atmospheric scenarios we considered, spanning CO$_2$-rich atmospheres with surface pressures from 0.1 to 10 bar. However, we stress that the two observations from our program do not yield consistent results, and more observations are needed to verify our findings. The Hot Rocks Survey serves as a relevant primer for the Director's Discretionary Time (DDT) Rocky Worlds program.

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More information

Accepted/In Press date: 14 October 2024
e-pub ahead of print date: 18 March 2025
Published date: March 2025
Keywords: astro-ph.EP, Techniques: photometric, Planets and satellites: atmospheres, Planets and satellites: terrestrial planets

Identifiers

Local EPrints ID: 501812
URI: http://eprints.soton.ac.uk/id/eprint/501812
DOI: doi:10.1051/0004-6361/202452611
ISSN: 0004-6361
PURE UUID: b67eb4d4-2e4e-49fc-8501-5561cb53ff2c
ORCID for J.M. Mendonça: ORCID iD orcid.org/0000-0002-6907-4476

Catalogue record

Date deposited: 10 Jun 2025 16:53
Last modified: 03 Sep 2025 02:14

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Contributors

Author: P.C. August
Author: L.A. Buchhave
Author: H. Diamond-Lowe
Author: J.M. Mendonça ORCID iD
Author: A. Gressier
Author: A.D. Rathcke
Author: N.H. Allen
Author: M. Fortune
Author: K.D. Jones
Author: E.A. Meier-Valdés
Author: B.O. Demory
Author: N. Espinoza
Author: C.E. Fisher
Author: N.P. Gibson
Author: K. Heng
Author: J. Hoeijmakers
Author: M.J. Hooton
Author: D. Kitzmann
Author: B. Prinoth
Author: J.D. Eastman
Author: R. Barnes

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