SMA 200–400 GHz Survey for Dust Properties in the Icy Class II Disks in the Taurus Molecular Cloud

Chia-Ying Chung, Sean M. Andrews, Mark A. Gurwell, Melvyn Wright, Feng Long, Wenrui Xu, Hauyu Baobab Liu
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Abstract

We present a new Submillimeter Array survey of 47 Class II sources in the Taurus–Auriga region. Our observations made 12 independent samples of flux densities over the 200–400 GHz frequency range. We tightly constrained the spectral indices of most sources to a narrow range of 2.0 ± 0.2; only a handful of spatially resolved (e.g., diameter >250 au) disks present larger spectral indices. The simplest interpretation for this result is that the (sub)millimeter luminosities of all of the observed target sources are dominated by very optically thick (e.g., τ ≳ 5) dust thermal emission. Some previous works that were based on the optically thin assumption thus might have underestimated optical depths by at least 1 order of magnitude. Assuming DSHARP dust opacities, this corresponds to underestimates of dust masses by a similar factor. For our specific selected sample, the lower limits of dust masses implied by the optically thick interpretation are 1–3 times higher than those previous estimates that were made based on the optically thin assumption. Moreover, some population synthesis models show that, to explain the observed, narrowly distributed spectral indices, the disks in our selected sample need to have very similar dust temperatures (T dust). Given a specific assumption of median T dust, the maximum grain sizes ( amax ) can also be constrained, which is a few times smaller than 0.1 mm for T dust ∼ 100 K and a few millimeters for T dust ∼ 24 K. The results may indicate that dust grain growth outside the water snow line is limited by the bouncing/fragmentation barriers. This is consistent with the recent laboratory experiments, which indicated that the coagulation of water-ice-coated dust is not efficient, and the water-ice-free dust is stickier and thus can coagulate more efficiently. In the Class II disks, the dust mass budget outside of the water snow line may be largely retained instead of being mostly consumed by planet formation. While Class II disks still possess sufficient dust masses to feed planet formation at a later time, it is unknown whether or not dust coagulation and planet formation can be efficient or natural outside of the water snow line.
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SMA 200-400 GHz 勘测金牛座分子云中冰二级盘的尘埃特性
我们展示了亚毫米波阵列对金牛座-Auriga 地区 47 个 II 类源的新观测结果。我们的观测在 200-400 GHz 频率范围内采集了 12 个独立的通量密度样本。我们将大多数光源的光谱指数严格限制在 2.0 ± 0.2 的狭窄范围内;只有少数空间分辨率较高(例如直径为 250 au)的盘呈现出较大的光谱指数。对这一结果最简单的解释是,所有观测到的目标源的(亚)毫米光度都是由光学厚度非常大(例如,τ ≳5)的尘埃热辐射主导的。因此,之前一些基于光学稀薄假设的研究可能低估了至少一个数量级的光学深度。假设DSHARP尘埃不透光,则尘埃质量也会被低估类似的系数。对于我们选定的特定样本,光学厚度解释所隐含的尘埃质量下限要比之前根据光学稀薄假设所做的估计高出1-3倍。此外,一些星群合成模型显示,要解释观测到的窄分布光谱指数,我们所选样本中的磁盘需要有非常相似的尘埃温度(Tdust)。如果假设尘埃温度中值为中值,那么尘埃颗粒的最大尺寸(amax)也会受到限制,当尘埃温度为100 K时,amax比0.1毫米小几倍,当尘埃温度为24 K时,amax比0.1毫米小几毫米。这与最近的实验室实验是一致的,实验表明,被水冰包裹的尘埃凝结效率不高,而不含水冰的尘埃更粘,因此凝结效率更高。在第二类星盘中,水雪线以外的尘埃质量预算可能大部分被保留下来,而不是大部分被行星的形成所消耗。虽然第二类星盘仍然拥有足够的尘埃质量,可以在以后为行星的形成提供能量,但在水雪线之外,尘埃的凝结和行星的形成是否有效或自然,目前还不得而知。
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