High-resolution ALMA Observations of Richly Structured Protoplanetary Disks in σ Orionis

Jane Huang, Megan Ansdell, Tilman Birnstiel, Ian Czekala, Feng Long, Jonathan Williams, Shangjia Zhang and Zhaohuan Zhu
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Abstract

The Atacama Large Millimeter/submillimeter Array (ALMA) has detected substructures in numerous protoplanetary disks at radii from a few to over 100 au. These substructures are commonly thought to be associated with planet formation, either by serving as sites fostering planetesimal formation or by arising as a consequence of planet–disk interactions. Our current understanding of substructures, though, is primarily based on observations of nearby star-forming regions with mild UV environments, whereas stars are typically born in much harsher UV environments, which may inhibit planet formation in the outer disk through external photoevaporation. We present high-resolution (∼8 au) ALMA 1.3 mm continuum images of eight disks in σ Orionis, a cluster irradiated by an O9.5 star. Gaps and rings are resolved in the images of five disks. The most striking of these is SO 1274, which features five gaps that appear to be arranged nearly in a resonant chain. In addition, we infer the presence of gap or shoulder-like structures in the other three disks through visibility modeling. These observations indicate that substructures robustly form and survive at semimajor axes of several tens of au or less in disks exposed to intermediate levels of external UV radiation as well as in compact disks. However, our observations also suggest that disks in σ Orionis are mostly small, and thus millimeter continuum gaps beyond a disk radius of 50 au are rare in this region, possibly due to either external photoevaporation or age effects.
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对猎户座σ中结构丰富的原行星盘的高分辨率 ALMA 观测
阿塔卡马大毫米波/亚毫米波阵列(ALMA)在许多原行星盘中探测到了半径从几au到超过100au的亚结构。这些亚结构通常被认为与行星的形成有关,或者是作为行星形成的场所,或者是行星与盘相互作用的结果。不过,我们目前对亚结构的理解主要基于对附近恒星形成区的观测,这些区域的紫外环境比较温和,而恒星通常诞生在更为严酷的紫外环境中,这可能会通过外部光蒸发来抑制外盘中行星的形成。我们展示了由一颗 O9.5 恒星辐照的星团 σ Orionis 中八个星盘的高分辨率(∼8 au)ALMA 1.3 mm 连续谱图像。其中五个星盘的图像可以分辨出间隙和星环。其中最引人注目的是 SO 1274,它有五个间隙,看起来几乎排列成一个共振链。此外,我们还通过能见度建模推断出其他三个星盘中存在间隙或类似肩的结构。这些观测结果表明,在暴露于中等水平外部紫外线辐射的磁盘以及紧凑磁盘中,亚结构在几十au或更小的半长轴上稳健地形成并存活。不过,我们的观测结果也表明,猎户座σ中的磁盘大多很小,因此在这一区域,可能由于外部光蒸发或年龄效应的影响,超过磁盘半径50au的毫米级连续相隙非常罕见。
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