Retrieval of Thermally-Resolved Water Vapor Distributions in Disks Observed with JWST-MIRI

Carlos E. Muñoz-Romero, Andrea Banzatti, Karin I. Öberg, Klaus M. Pontoppidan, Colette Salyk, Joan Najita, Geoffrey A. Blake, Sebastiaan Krijt, Nicole Arulanantham, Paola Pinilla, Feng Long, Giovanni Rosotti, Sean M. Andrews, David J. Wilner, Jenny Calahan, The JDISCS Collaboration
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Abstract

The mid-infrared water vapor emission spectrum provides a novel way to characterize the delivery of icy pebbles towards the innermost ($<5$ au) regions of planet-forming disks. Recently, JWST MIRI-MRS showed that compact disks exhibit an excess of low-energy water vapor emission relative to extended multi-gapped disks, suggesting that icy pebble drift is more efficient in the former. We carry out detailed emission line modeling to retrieve the excitation conditions of rotational water vapor emission in a sample of four compact and three extended disks within the JDISC Survey. We present two-temperature H$_2$O slab model retrievals and, for the first time, constrain the spatial distribution of water vapor by fitting parametric radial temperature and column density profiles. Such models statistically outperform the two-temperature slab fits. We find a correlation between the observable hot water vapor mass and stellar mass accretion rate, as well as an anti-correlation between cold water vapor mass and sub-mm dust disk radius, confirming previously reported water line flux trends. We find that the mid-IR spectrum traces H$_2$O with temperatures down to 180-300 K, but the coldest 150-170 K gas remains undetected. Furthermore the H$_2$O temperature profiles are generally steeper and cooler than the expected `super-heated' dust temperature in passive irradiated disks. The column density profiles are used to estimate icy pebble mass fluxes, which suggest that compact and extended disks may produce markedly distinct inner-disk exoplanet populations if local feeding mechanisms dominate their assembly.
用 JWST-MIRI 观测的盘中热解水蒸汽分布的检索
中红外水蒸气发射光谱提供了一种新的方法来描述冰卵石向行星形成盘最内侧(小于5美元au)区域的输送情况。最近,JWST的MIRI-MRS显示,相对于扩展的多瓣盘,紧凑盘显示出过量的低能水蒸气发射,这表明冰卵石漂移在形成者中更有效率。我们对 JDISC 巡天中的四个紧凑盘和三个扩展盘样本进行了详细的发射线建模,以检索旋转水蒸气发射的激发条件。我们提出了两种温度的 H$_2$Oslab 模型检索,并首次通过拟合参数径向温度和柱密度剖面来约束水蒸气的空间分布。这种模型在统计上优于双温板拟合。我们发现可观测到的热水蒸气质量与恒星质量吸积率之间存在相关性,而冷水蒸气质量与亚微米尘埃盘半径之间存在反相关性,这证实了之前报道的水线通量趋势。我们发现,中红外光谱可以追踪到温度低至 180-300 K 的 H$_2$O,但最冷的 150-170 K 气体仍然没有被探测到。此外,H$_2$O 的温度曲线通常比被动辐射盘中预期的 "过热 "尘埃温度更陡峭和更低。柱密度剖面被用来估算冰卵石质量通量,这表明,如果本地供养机制在其组装中占主导地位,那么紧凑和扩展盘可能会产生明显不同的内盘系外行星群。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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