# Hubble PanCET: An extended upper atmosphere of neutral hydrogen around   the warm Neptune GJ 3470 b

**Authors:** V.Bourrier, A.Lecavelier des Etangs, D.Ehrenreich, J.Sanz-Forcada,, R.Allart, G.E.Ballester, L.A.Buchhave, O.Cohen, D.Deming, T.M.Evans, A.Garcia, Munoz, G.W.Henry, T.Kataria, P.Lavvas, N.Lewis, M.Lopez-Morales, M.Marley,, D.K.Sing, H.R.Wakeford

arXiv: 1812.05119 · 2018-12-14

## TL;DR

This study uses Hubble observations to detect and analyze an extended neutral hydrogen atmosphere around the warm Neptune GJ 3470b, revealing atmospheric escape processes influenced by stellar radiation.

## Contribution

First direct detection and detailed characterization of the extended hydrogen atmosphere of GJ 3470b using Lyman-alpha transit observations and numerical simulations.

## Key findings

- Detected consistent hydrogen absorption signatures in multiple transits.
- Estimated hydrogen escape rate of approximately 1e10 g/s.
- Suggested significant atmospheric mass loss over planetary lifetime.

## Abstract

GJ 3470b is a warm Neptune transiting an M-dwarf star at the edge of the evaporation desert. It offers the possibility of investigating how low-mass, close-in exoplanets evolve under the irradiation from their host stars. We observed three transits of GJ 3470b in the Lyman-alpha line with the Hubble Space Telescope (HST) as part of the Panchromatic Comparative Exoplanet Treasury (PanCET) program. Absorption signatures are detected with similar properties in all three independent epochs, with absorption depths of 35+-7% in the blue wing of the line, and 23+-5% in the red wing. The repeatability of these signatures, their phasing with the planet transit, and the radial velocity of the absorbing gas allow us to conclude that there is an extended upper atmosphere of neutral hydrogen around GJ 3470 b. We determine from our observations the stellar radiation pressure and XUV irradiation from GJ 3470 and use them to perform numerical simulations of the upper atmosphere of GJ 3470b with the EVaporating Exoplanets (EVE) code. The unusual redshifted signature can be explained by the damping wings of dense layers of neutral hydrogen that extend beyond the Roche lobe and are elongated in the direction of the planet motion. This structure could correspond to a shocked layer of planetary material formed by the collision of the expanding thermosphere with the wind of the star. The blueshifted signature is well explained by neutral hydrogen atoms escaping at rates of about 1e10 g s-1 that are blown away from the star by its strong radiation pressure and are quickly photoionized, resulting in a smaller exosphere than that of the warm Neptune GJ 436b. The stronger escape from GJ 3470b, however, may have led to the loss of about 4-35% of its current mass over its 2 Gyr lifetime.

## Full text

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## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/1812.05119/full.md

## References

100 references — full list in the complete paper: https://tomesphere.com/paper/1812.05119/full.md

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Source: https://tomesphere.com/paper/1812.05119