# Discovery of water at high spectral resolution in the atmosphere of 51   Peg b

**Authors:** J. L. Birkby, R. J. de Kok, M. Brogi, H. Schwarz, I. A. G. Snellen

arXiv: 1701.07257 · 2017-03-08

## TL;DR

This study detects water vapor in the atmosphere of 51 Peg b using high-resolution spectroscopy, confirming its planetary nature, measuring its mass, and providing insights into its atmospheric composition and orbital parameters.

## Contribution

First detection of water absorption in 51 Peg b's atmosphere at high spectral resolution, refining its mass and orbital inclination, and updating its orbital solution.

## Key findings

- Water detected at 5.6 sigma significance
- Planet mass estimated at approximately 0.476 Jupiter masses
- Atmosphere shows no significant methane or carbon dioxide absorption

## Abstract

We report the detection of water absorption features in the dayside spectrum of the first-known hot Jupiter, 51 Peg b, confirming the star-planet system to be a double-lined spectroscopic binary. We used high-resolution (R~100,000), 3.2 micron spectra taken with CRIRES/VLT to trace the radial-velocity shift of the water features in the planet's dayside atmosphere during 4 hours of its 4.23-day orbit after superior conjunction. We detect the signature of molecular absorption by water at a significance of 5.6 sigma at a systemic velocity of Vsys=-33+/-2 km/s, coincident with the host star, with a corresponding orbital velocity Kp = 133^+4.3_-3.5 km/s. This translates directly to a planet mass of Mp=0.476^+0.032_-0.031MJ, placing it at the transition boundary between Jovian and Neptunian worlds. We determine upper and lower limits on the orbital inclination of the system of 70<i (deg)<82.2. We also provide an updated orbital solution for 51 Peg b, using an extensive set of 639 stellar radial velocities measured between 1994 and 2013, finding no significant evidence of an eccentric orbit. We find no evidence of significant absorption or emission from other major carbon-bearing molecules of the planet, including methane and carbon dioxide. The atmosphere is non-inverted in the temperature-pressure region probed by these observations. The deepest absorption lines reach an observed relative contrast of 0.9x10^-3 with respect to the host star continuum flux, at an angular separation of 3 milliarcseconds. This work is consistent with a previous tentative report of K-band molecular absorption for 51 Peg b by Brogi et al. (2013).

## Full text

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## Figures

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## References

92 references — full list in the complete paper: https://tomesphere.com/paper/1701.07257/full.md

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Source: https://tomesphere.com/paper/1701.07257