GJ 1252b: A Hot Terrestrial Super-Earth with No Atmosphere

Crossfield, Ian J. M.; Malik, Matej; Hill, Michelle L.; Kane, Stephen R.; Foley, Bradford J.; Polanski, Alex S.; Coria, David; Brande, Jonathan; Zhang, Yanzhe; Wienke, Katherine; Kreidberg, Laura; Cowan, Nicolas B.; Dragomir, Diana; Gorjian, Varoujan; Mikal-Evans, Thomas; Benneke, Björn; Christiansen, Jessie L.; Deming, Drake; Morales, Farisa Y.

doi:10.3847/2041-8213/ac886b

Cited by 30 publications

(23 citation statements)

References 86 publications

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“…Using our classification method, we categorise GJ 1252b as a close-in "Mars-analogue" exoplanet likely to have a thin water-less atmosphere. Comparing our analogue adjusted temperature of 1011 ± 107 K to the Crossfield et al (2022) dayside brightness temperature of 1410 +91 −125 K, we fall within 2𝜎 of their dayside GJ 1252b surface temperature. Despite using different assumptions, our primary classification model is consistent with other work using different techniques, giving us confidence in our approach.…”

Section: Application Of Exoplanet Classification To Surface Pressure ...supporting

confidence: 61%

“…This is consistent with the findings from Kreidberg et al (2019) of a small atmosphere susceptible to erosion by stellar winds and thus likely being barerock with low bond-albedo. Additionally, we compared our results to the Crossfield et al (2022) observations of GJ 1252b. While our model assumes a fast-rotating exoplanet, unlike the slow-rotating GJ 1252b, when run through our models, the results agree with Crossfield et al (2022) that GJ 1252b is a hot rocky exoplanet with no significant atmosphere.…”

Section: Application Of Exoplanet Classification To Surface Pressure ...mentioning

confidence: 99%

“…Additionally, we compared our results to the Crossfield et al (2022) observations of GJ 1252b. While our model assumes a fast-rotating exoplanet, unlike the slow-rotating GJ 1252b, when run through our models, the results agree with Crossfield et al (2022) that GJ 1252b is a hot rocky exoplanet with no significant atmosphere. Using our classification method, we categorise GJ 1252b as a close-in "Mars-analogue" exoplanet likely to have a thin water-less atmosphere.…”

Section: Application Of Exoplanet Classification To Surface Pressure ...mentioning

confidence: 99%

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A rocky exoplanet classification method and its application to calculating surface pressure and surface temperature

McIntyre¹,

King²,

Mills³

2023

Preprint

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With over 5,000 exoplanets currently detected, there is a need for a primary classification method to prioritise candidates for biosignature observations. Here, we develop a classification method to categorise rocky exoplanets based on their closest solar system analogue using available data of observed stellar and planetary features, masses, and radii, to model nonthermal atmospheric escape, thermal atmospheric escape, and stellar irradiation boundaries. Applying this classification method to the 720 rocky exoplanets in our sample with uncertainties in planetary masses, radii, stellar temperatures, and fluxes propagated via a Monte Carlo model indicates that 22% ± 8% are Mercury analogues, 39% ± 4% are Mars analogues, 11% ± 1% are Venus analogues, 2% ± 1% are Earth analogues, and 26% ± 12% are without a known planetary counterpart in our solar system. Extrapolating to conditions on LHS 3844b and GJ 1252b, our classification method gives results reasonably consistent with current observations. Subsequently, to demonstrate the functionality of this classification method, we plot our catalogued sample of exoplanets on an adjusted surface pressure versus temperature phase diagram, presenting more realistic estimates of the potential surface phases (gas, liquid or ice). Our new classification method could help target selection for future exoplanet characterisation missions.

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Section: Application Of Exoplanet Classification To Surface Pressure ...supporting

confidence: 61%

Section: Application Of Exoplanet Classification To Surface Pressure ...mentioning

confidence: 99%

Section: Application Of Exoplanet Classification To Surface Pressure ...mentioning

confidence: 99%

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A rocky exoplanet classification method and its application to calculating surface pressure and surface temperature

McIntyre¹,

King²,

Mills³

2023

Preprint

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“…The ESM is a metric which yields high values for high-S/N targets that are most favorable for emission spectroscopy. For all planets, we show the ESM assuming the zero-albedo and full-heat- Kreidberg et al 2019;Crossfield et al 2020;Zieba et al 2022;Crossfield et al 2022). For GJ 436 b and GJ 3470b at 4.5 μm, we show the brightness temperature upper bounds as triangles (Stevenson et al 2010;Benneke et al 2019b).…”

Section: Discussionmentioning

confidence: 99%

“…Exoplanets with reported secondary-eclipse measurements are shown in bold (Alonso 2018). Small planets with available Spitzer 3.6 and 4.5 μm thermal emission measurements are labeled and are shown with the reported Spitzer dayside brightness temperatures (diamonds with error bars; Demory et al 2016;Kreidberg et al 2019;Crossfield et al 2020;Zieba et al 2022;Crossfield et al 2022). For GJ 436 b and GJ 3470b at 4.5 μm, we show the brightness temperature upper bounds as triangles(Stevenson et al 2010;Benneke et al 2019b).…”

mentioning

confidence: 99%

Is the Hot, Dense Sub-Neptune TOI-824 b an Exposed Neptune Mantle? Spitzer Detection of the Hot Dayside and Reanalysis of the Interior Composition

Roy

Benneke

Piaulet

et al. 2022

ApJ

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The Kepler and TESS missions revealed a remarkable abundance of sub-Neptune exoplanets. Despite this abundance, our understanding of the nature and compositional diversity of sub-Neptunes remains limited, to a large part because atmospheric studies via transmission spectroscopy almost exclusively have aimed for low-density sub-Neptunes, and even those were often affected by high-altitude clouds. The recent TESS discovery of the hot, dense TOI-824 b (2.93 R ⊕ and 18.47 M ⊕) opens a new window into sub-Neptune science by enabling the study of a dense sub-Neptune via secondary eclipses. Here, we present the detection of TOI-824 b’s hot dayside via Spitzer secondary-eclipse observations in the 3.6 and 4.5 μm channels, combined with a reanalysis of its interior composition. The measured eclipse depths (142 − 52 + 57 and 245 − 77 + 75 ppm) and brightness temperatures (1463 − 196 + 183 and 1484 − 202 + 180 K) indicate a poor heat redistribution (f < 0.49) and a low Bond albedo (A B < 0.26). We conclude that TOI-824 b could be an “exposed Neptune mantle”: a planet with a Neptune-like water-rich interior that never accreted a hydrogen envelope or that subsequently lost it. The hot dayside temperature is then naturally explained by a high-metallicity envelope reemitting the bulk of the incoming radiation from the dayside. TOI-824 b’s density is also consistent with a massive rocky core that accreted up to 1% of hydrogen, but the observed eclipse depths favor our high-metallicity general circulation model (GCM) simulation to a solar-metallicity GCM simulation with a likelihood ratio of 7:1. The new insights into TOI-824 b’s nature suggest that the sub-Neptune population may be more diverse than previously thought, with some of the dense hot sub-Neptunes potentially not hosting a hydrogen-rich envelope as generally assumed for sub-Neptunes.

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Super-Earths and Earth-like exoplanets

Lichtenberg,

Miguel

2025

Treatise on Geochemistry

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GJ 1252b: A Hot Terrestrial Super-Earth with No Atmosphere

Cited by 30 publications

References 86 publications

A rocky exoplanet classification method and its application to calculating surface pressure and surface temperature

A rocky exoplanet classification method and its application to calculating surface pressure and surface temperature

Is the Hot, Dense Sub-Neptune TOI-824 b an Exposed Neptune Mantle? Spitzer Detection of the Hot Dayside and Reanalysis of the Interior Composition

Super-Earths and Earth-like exoplanets

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