Probing the extreme planetary atmosphere of WASP-12b

TL;DR

This study presents near-infrared spectral measurements of exoplanet WASP-12b's atmosphere, analyzing its composition, temperature, and systematics, confirming the absence of C/O >1 and providing insights into atmospheric molecules and distortions.

Contribution

It provides detailed spectral data and atmospheric modeling of WASP-12b, confirming the non-existence of high C/O ratio and assessing instrument systematics for precise measurements.

Findings

No evidence for C/O >1 in WASP-12b's atmosphere

Detected dayside brightness temperature peaks at 3200 K

Instrument systematics are dominated by detector effects

Abstract

We report near-infrared measurements of the terminator region transmission spectrum and dayside emission spectrum of the exoplanet WASP-12b obtained using the HST WFC3 instrument. The disk-average dayside brightness temperature averages about 2900 K, peaking to 3200 K around 1.46 microns. We modeled a range of atmospheric cases for both the emission and transmission spectrum and confirm the recent finding by Crossfield et al. (2012b) that there is no evidence for C/O >1 in the atmosphere of WASP-12b. Assuming a physically plausible atmosphere, we find evidence that the presence of a number of molecules is consistent with the data, but the justification for inclusion of these opacity sources based on the Bayesian Information Criterion (BIC) is marginal. We also find the near-infrared primary eclipse light curve is consistent with small amounts of prolate distortion. As part of the calibration effort for these data, we conducted a detailed study of instrument systematics using 65 orbits of WFC3-IR grims observations. The instrument systematics are dominated by detector-related affects, which vary significantly depending on the detector readout mode. The 256x256 subarray observations of WASP 12 produced spectral measurements within 15% of the photon-noise limit using a simple calibration approach. Residual systematics are estimated to be less than 70 parts per million.