The chemical inventory of the inner regions of planet-forming disks – the JWST/MINDS program†

IF 3.3 3区 化学 Q2 CHEMISTRY, PHYSICAL
Inga Kamp, Thomas Henning, Aditya M. Arabhavi, Giulio Bettoni, Valentin Christiaens, Danny Gasman, Sierra L. Grant, Maria Morales-Calderón, Benoît Tabone, Alain Abergel, Olivier Absil, Ioannis Argyriou, David Barrado, Anthony Boccaletti, Jeroen Bouwman, Alessio Caratti o Garatti, Ewine F. van Dishoeck, Vincent Geers, Adrian M. Glauser, Manuel Güdel, Rodrigo Guadarrama, Hyerin Jang, Jayatee Kanwar, Pierre-Olivier Lagage, Fred Lahuis, Michael Mueller, Cyrine Nehmé, Göran Olofsson, Eric Pantin, Nicole Pawellek, Giulia Perotti, Tom P. Ray, Donna Rodgers-Lee, Matthias Samland, Silvia Scheithauer, Jürgen Schreiber, Kamber Schwarz, Milou Temmink, Bart Vandenbussche, Marissa Vlasblom, Christoffel Waelkens, L. B. F. M. Waters and Gillian Wright
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Abstract

The understanding of planet formation has changed recently, embracing the new idea of pebble accretion. This means that the influx of pebbles from the outer regions of planet-forming disks to their inner zones could determine the composition of planets and their atmospheres. The solid and molecular components delivered to the planet-forming region can be best characterized by mid-infrared spectroscopy. With Spitzer low-resolution (R = 100, 600) spectroscopy, this approach was limited to the detection of abundant molecules, such as H2O, C2H2, HCN and CO2. This contribution will present the first results of the MINDS (MIRI mid-INfrared Disk Survey, PI:Th Henning) project. Due do the sensitivity and spectral resolution provided by the James Webb Space Telescope (JWST), we now have a unique tool to obtain the full inventory of chemistry in the inner disks of solar-type stars and brown dwarfs, including also less-abundant hydrocarbons and isotopologues. The Integral Field Unit (IFU) capabilities will enable at the same time spatial studies of the continuum and line emission in extended sources such as debris disks, the flying saucer and also the search for mid-IR signatures of forming planets in systems such as PDS 70. These JWST observations are complementary to ALMA and NOEMA observations of outer-disk chemistry; together these datasets will provide an integral view of the processes occurring during the planet-formation phase.

Abstract Image

行星形成盘内部区域的化学库存- JWST/MINDS程序†
最近,人们对行星形成的理解发生了变化,接受了卵石增生的新观点。这意味着从行星形成盘的外部区域流入内部区域的鹅卵石可以决定行星的组成和它们的大气。传递到行星形成区域的固体和分子成分可以用中红外光谱来最好地表征。使用斯皮策低分辨率(R = 100,600)光谱,该方法仅限于检测丰富的分子,如H2O, C2H2, HCN和CO2。这篇文章将展示MINDS (MIRI中红外磁盘调查,PI:Th Henning)项目的第一批结果。由于詹姆斯·韦伯太空望远镜(JWST)提供的灵敏度和光谱分辨率,我们现在有了一个独特的工具,可以获得太阳型恒星和褐矮星内盘的全部化学成分,包括不太丰富的碳氢化合物和同位素。积分场单元(IFU)的能力将同时能够对扩展源(如碎片盘、飞碟)的连续体和线发射进行空间研究,并在PDS 70等系统中寻找形成行星的中红外特征。这些JWST观测是对ALMA和NOEMA外盘化学观测的补充;这些数据集将提供行星形成阶段发生的过程的整体视图。
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来源期刊
Faraday Discussions
Faraday Discussions 化学-物理化学
自引率
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发文量
259
期刊介绍: Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces
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