The GAPS programme at TNG LX Atmospheric characterisation of KELT-9 b via single-line analysis: Detection of six H I Balmer lines, Na I, Ca I, Ca II, Fe I, Fe II, Mg I, Ti II, Sc II, and Cr II

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-09-03 DOI:arxiv-2409.01779

M. C. D'Arpa, A. Saba, F. Borsa, L. Fossati, G. Micela, C. Di Maio, M. Stangret, G. Tripodo, L. Affer, A. S. Bonomo, S. Benatti, M. Brogi, V. Fardella, A. F. Lanza, G. Guilluy, J. Maldonado, G. Mantovan, V. Nascimbeni, L. Pino, G. Scandariato, D. Sicilia, A. Sozzetti, R. Spinelli, G. Andreuzzi, A. Bignamini, R. Claudi, S. Desidera, A. Ghedina, C. Knapic, V. Lorenzi

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Abstract

We analysed six primary transits of the ultra-hot Jupiter KELT-9,b obtained with the HARPS-N high-resolution spectrograph in the context of the Global Architecture of Planetary Systems (GAPS2) project, to characterise the atmosphere via single-line analysis. We extracted the transmission spectrum of each individual line by comparing the master out-of-transit spectrum with the in-transit spectra and computing the weighted average of the tomography in the planet reference frame. We corrected for the centre-to-limb variation and the Rossiter-McLaughlin effect by modelling the region of the star disc obscured by the planet during the transit and subtracting it from the master-out spectrum. We detected all six observable lines of the Balmer series within the HARPS-N wavelength range, from H$\alpha$ to H$\zeta$, with a significance exceeding 5$\sigma$. We focussed on metal species, detecting Na I, Ca I, Ca II, Fe I, Fe II, Mg I, Ti II, Sc II, and Cr II lines. This is the first detection in the atmosphere of an exoplanet of H$\epsilon$ and H$\zeta$ lines, as well as of individual lines of Sc II and Cr II. Our detections are supported by a comparison with published synthetic transmission spectra of KELT-9b obtained accounting for non-local thermodynamic equilibrium effects. The results underline the presence of a systematic blueshift due to night-side to day-side winds. The single-line analysis allowed us not only to assess the presence of atomic species in the atmosphere of KELT-9 b, but also to further characterise the local stratification of the atmosphere. Coupling the height distribution of the detected species with the velocity shift retrieved, we acknowledged the height distribution of night-side to day-side winds. Moreover, the study of the rotational broadening of different species supports the prediction of a tidally locked planet rotating as a rigid body.

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TNG LX 的 GAPS 计划通过单线分析确定 KELT-9 b 的大气特征：探测六条 H I Balmer 线、Na I、Ca I、Ca II、Fe I、Fe II、Mg I、Ti II、Sc II 和 Cr II

我们分析了在行星系统全球结构（GAPS2）项目中利用 HARPS-N 高分辨率光谱仪获得的超热木星 KELT-9 b 的六次主凌日，通过单线分析来描述其大气层的特征。我们通过比较主轨迹外光谱和轨迹内光谱，并计算行星参照系中层析成像的加权平均值，提取了每条单线的透射光谱。在HARPS-N波长范围内，从H$\alpha$到H$\zeta$，我们探测到了Balmer系列的所有六条可观测到的线，其重要程度超过了5$\sigma$。我们重点研究了金属物种，探测到了 Na I、Ca I、Ca II、Fe I、Fe II、Mg I、Ti II、Sc II 和 Cr II 线。这是首次在系外行星的大气层中探测到H$\epsilon$和H$\zeta$线，以及Sc II和Cr II的个别线。我们的探测结果得到了与已发表的 KELT-9b 合成透射光谱的比较结果的支持，KELT-9b 的合成透射光谱是在考虑了非局部热力学平衡效应的情况下获得的。结果表明，从夜侧风到日侧风导致了系统性蓝移的存在。单线分析使我们不仅能够评估 KELT-9 b 大气层中原子物种的存在，还能进一步确定大气层局部分层的特征。将探测到的物种高度分布与检索到的速度偏移结合起来，我们确认了夜侧风与昼侧风的高度分布。此外，对不同种类的旋转展宽的研究支持了作为刚体旋转的潮汐锁定行星的预测。

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arXiv - PHYS - Earth and Planetary Astrophysics

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