PEPSI Investigation, Retrieval, and Atlas of Numerous Giant Atmospheres (PIRANGA). II. Phase-Resolved Cross-Correlation Transmission Spectroscopy of KELT-20b (2503.07719v1)

Abstract: KELT-20b is a well-studied exoplanet within the highly observable ultra hot Jupiter (UHJ) regime, yet its multidimensional atmospheric structure remains largely unconstrained. Recent advances in instrumentation and increased general circulation model (GCM) complexity have enabled observers to resolve the imprints of more intricate physical mechanisms in time-resolved data. We performed high-resolution cross-correlation transmission spectroscopy (HRCCTS) on a single transit time series of KELT-20b, observed with PEPSI on the LBT. We detect Fe I $(11.9\sigma)$ and Fe II $(23.7\sigma)$ and tentatively detect Na I $(3.4\sigma)$ and Cr I $(3.3\sigma)$ upon combining nineteen in-transit exposures. The full-transit velocity offsets of the strongest absorbers are $\Delta V_{\text{Fe I}} = -1.0 \pm 0.7$ km s$^{-1}$ and $\Delta V_{\text{Fe II}}= 0.0\pm 0.5$ km s$^{-1}$. These results are discrepant with other HRCCTS studies of KELT-20b, but these studies are largely inconsistent with each other due to multiple possible factors, including self-inconsistent treatment of systemic velocity. In response, we establish a stringent set of detection criteria to promote reproducibility in future works. We present phase-resolved absorption traces of species with high detection significance. Fe I and Fe II's absorption traces are both redshifted at ingress, cross to a blueshift after mid-transit, then settle at a net blueshift at egress; concurrently, SNR increases with phase. This behavior is consistent with absorption traces post-processed from an active magnetic drag GCM for another UHJ. However, the net blueshift during transit could also result from limb asymmetry drivers and/or longitudinally variable wind structure. This ambiguity motivates future theoretical work on KELT-20b.