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High-energy spectra of LTT 1445A and GJ 486 reveal flares and activity

High-energy spectra of LTT 1445A and GJ 486 reveal flares and activity
High-energy spectra of LTT 1445A and GJ 486 reveal flares and activity
The high-energy radiative output, from the X-ray to the ultraviolet, of exoplanet host stars drives photochemical reactions and mass loss in the upper regions of planetary atmospheres. In order to place constraints on the atmospheric properties of the three closest terrestrial exoplanets transiting M dwarfs, we observe the high-energy spectra of the host stars LTT 1445A and GJ 486 in the X-ray with XMM-Newton and Chandra and in the ultraviolet with HST/COS and STIS. We combine these observations with estimates of extreme-ultraviolet flux, reconstructions of the Lyα lines, and stellar models at optical and infrared wavelengths to produce panchromatic spectra from 1 Å to 20 µm for each star. While LTT 1445Ab, LTT 1445Ac, and GJ 486b do not possess primordial hydrogen-dominated atmospheres, we calculate that they are able to retain pure CO2 atmospheres if starting with 10, 15, and 50% of Earth’s total CO2 budget, respectively, in the presence of their host stars’ stellar wind. We use age-activity relationships to place lower limits of 2.2 and 6.6 Gyr on the ages of the host stars LTT 1445A and GJ 486. Despite both LTT 1445A and GJ 486 appearing inactive at optical wavelengths, we detect flares at ultraviolet and X-ray wavelengths for both stars. In particular, GJ 486 exhibits two far-ultraviolet flares with absolute energies of 1029.5 and 1030.1 erg (equivalent durations of 4357 ± 96 and 19 724 ± 169 s) occurring 3 h apart. Based on the timing of the observations, we suggest that these high-energy flares are related and indicative of heightened flaring activity that lasts for a period of days, but our interpretations are limited by sparse time-sampling. Consistent high-energy monitoring is needed to determine the duration and extent of high-energy activity on individual M dwarfs and the population as a whole.
0004-6361
Diamond-Lowe, H.
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King, G.W.
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Youngblood, A.
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Brown, A.
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Howard, W.S.
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Winters, J.G.
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Wilson, D.J.
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France, K.
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Mendonça, J.M.
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Buchhave, L.A.
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Corrales, L.
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Kreidberg, L.
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Medina, A.A.
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Bean, J.L.
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Berta-Thompson, Z.K.
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Evans-Soma, T.M.
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Froning, C.
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Duvvuri, G.M.
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Kempton, E.M.-R.
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Miguel, Y.
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Pineda, J.S.
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Schneider, C.
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Diamond-Lowe, H.
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King, G.W.
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Youngblood, A.
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Brown, A.
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Howard, W.S.
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Winters, J.G.
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Wilson, D.J.
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France, K.
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Mendonça, J.M.
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Buchhave, L.A.
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Corrales, L.
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Kreidberg, L.
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Medina, A.A.
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Bean, J.L.
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Berta-Thompson, Z.K.
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Evans-Soma, T.M.
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Froning, C.
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Duvvuri, G.M.
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Kempton, E.M.-R.
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Miguel, Y.
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Pineda, J.S.
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Schneider, C.
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Diamond-Lowe, H., King, G.W., Youngblood, A., Brown, A., Howard, W.S., Winters, J.G., Wilson, D.J., France, K., Mendonça, J.M., Buchhave, L.A., Corrales, L., Kreidberg, L., Medina, A.A., Bean, J.L., Berta-Thompson, Z.K., Evans-Soma, T.M., Froning, C., Duvvuri, G.M., Kempton, E.M.-R., Miguel, Y., Pineda, J.S. and Schneider, C. (2024) High-energy spectra of LTT 1445A and GJ 486 reveal flares and activity. Astronomy & Astrophysics, 689, [A48]. (doi:10.1051/0004-6361/202450107).

Record type: Article

Abstract

The high-energy radiative output, from the X-ray to the ultraviolet, of exoplanet host stars drives photochemical reactions and mass loss in the upper regions of planetary atmospheres. In order to place constraints on the atmospheric properties of the three closest terrestrial exoplanets transiting M dwarfs, we observe the high-energy spectra of the host stars LTT 1445A and GJ 486 in the X-ray with XMM-Newton and Chandra and in the ultraviolet with HST/COS and STIS. We combine these observations with estimates of extreme-ultraviolet flux, reconstructions of the Lyα lines, and stellar models at optical and infrared wavelengths to produce panchromatic spectra from 1 Å to 20 µm for each star. While LTT 1445Ab, LTT 1445Ac, and GJ 486b do not possess primordial hydrogen-dominated atmospheres, we calculate that they are able to retain pure CO2 atmospheres if starting with 10, 15, and 50% of Earth’s total CO2 budget, respectively, in the presence of their host stars’ stellar wind. We use age-activity relationships to place lower limits of 2.2 and 6.6 Gyr on the ages of the host stars LTT 1445A and GJ 486. Despite both LTT 1445A and GJ 486 appearing inactive at optical wavelengths, we detect flares at ultraviolet and X-ray wavelengths for both stars. In particular, GJ 486 exhibits two far-ultraviolet flares with absolute energies of 1029.5 and 1030.1 erg (equivalent durations of 4357 ± 96 and 19 724 ± 169 s) occurring 3 h apart. Based on the timing of the observations, we suggest that these high-energy flares are related and indicative of heightened flaring activity that lasts for a period of days, but our interpretations are limited by sparse time-sampling. Consistent high-energy monitoring is needed to determine the duration and extent of high-energy activity on individual M dwarfs and the population as a whole.

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Accepted/In Press date: 28 June 2024
e-pub ahead of print date: 30 September 2024

Identifiers

Local EPrints ID: 497543
URI: http://eprints.soton.ac.uk/id/eprint/497543
DOI: doi:10.1051/0004-6361/202450107
ISSN: 0004-6361
PURE UUID: 95062a72-579f-4627-84a5-37a3bfec7f04
ORCID for J.M. Mendonça: ORCID iD orcid.org/0000-0002-6907-4476

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Date deposited: 27 Jan 2025 17:50
Last modified: 22 Aug 2025 02:46

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Contributors

Author: H. Diamond-Lowe
Author: G.W. King
Author: A. Youngblood
Author: A. Brown
Author: W.S. Howard
Author: J.G. Winters
Author: D.J. Wilson
Author: K. France
Author: J.M. Mendonça ORCID iD
Author: L.A. Buchhave
Author: L. Corrales
Author: L. Kreidberg
Author: A.A. Medina
Author: J.L. Bean
Author: Z.K. Berta-Thompson
Author: T.M. Evans-Soma
Author: C. Froning
Author: G.M. Duvvuri
Author: E.M.-R. Kempton
Author: Y. Miguel
Author: J.S. Pineda
Author: C. Schneider

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