Possible stratospheric emission in the warm Neptune GJ 436 b from high-resolution spectroscopy

Abstract

We present high spectral resolution L band (2.91--3.85 μm) observations of the warm Neptune GJ 436 b from Keck II/KPIC. KPIC's single-mode fiber feed reduces the L band sky background by a factor of 100, significantly improving sensitivity compared to a seeing-limited spectrometer and enabling a tentative ( SNR = 3-4) cross-correlation detection of GJ 436 b with a thermally inverted atmospheric model. In contrast with recent results from JWST and high-resolution transmission spectroscopy, our retrieval analysis prefers the presence of H2O, and possibly CH4, molecular features in emission. The broad-band continuum flux associated with the maximum-likelihood model is substantially higher than expected based on both the 670\ K equilibrium temperature of GJ 436 b and previous results from low-resolution spectroscopy. We demonstrate that the loss of continuum information during the processing of high-resolution spectra makes our analysis effectively insensitive to the absolute continuum level of the planet, and that scaling the maximum-likelihood model to match the broad-band flux measured from low-resolution observations of GJ 436 b results in a detection of similar strength in cross-correlation. These results could be explained by a thermal inversion arising above a haze layer in the upper atmosphere of . Further observations, ideally post-eclipse in order to break the Kp - vsys degeneracy, are needed to clarify this possible detection. This work demonstrates the potential of L band high-resolution spectroscopy for characterizing significantly smaller and cooler exoplanets compared with hot Jupiters.