Data from "A multi-frequency ALMA characterization of substructures in the GM Aur protoplanetary disk"

arXiv: Earth and Planetary Astrophysics Pub Date : 2020-01-29 DOI:10.5281/ZENODO.3628656

Jane Huang

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引用次数: 8

Abstract

The protoplanetary disk around the T Tauri star GM Aur was one of the first hypothesized to be in the midst of being cleared out by a forming planet. As a result, GM Aur has had an outsized influence on our understanding of disk structure and evolution. We present 1.1 and 2.1 mm ALMA continuum observations of the GM Aur disk at a resolution of ~50 mas (~8 au), as well as HCO$^+$ $J=3-2$ observations at a resolution of ~100 mas. The dust continuum shows at least three rings atop faint, extended emission. Unresolved emission is detected at the center of the disk cavity at both wavelengths, likely due to a combination of dust and free-free emission. Compared to the 1.1 mm image, the 2.1 mm image shows a more pronounced "shoulder" near R~40 au, highlighting the utility of longer-wavelength observations for characterizing disk substructures. The spectral index $\alpha$ features strong radial variations, with minima near the emission peaks and maxima near the gaps. While low spectral indices have often been ascribed to grain growth and dust trapping, the optical depth of GM Aur's inner two emission rings renders their dust properties ambiguous. The gaps and outer disk ($R>100$ au) are optically thin at both wavelengths. Meanwhile, the HCO$^+$ emission indicates that the gas cavity is more compact than the dust cavity traced by the millimeter continuum, similar to other disks traditionally classified as "transitional."

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“GM Aur原行星盘亚结构的多频ALMA表征”数据

围绕金牛座T星GM Aur的原行星盘是最早被一颗形成中的行星清除的假设之一。因此，GM Aur对我们对磁盘结构和进化的理解产生了巨大的影响。我们以~50 mas (~8 au)的分辨率对GM Aur盘进行了1.1和2.1 mm ALMA连续观测，并以~100 mas的分辨率对HCO$^+$ $J=3-2$进行了观测。尘埃连续体显示出至少三个环在微弱的延伸辐射之上。在两个波长的盘腔中心都检测到未解析的发射，可能是由于尘埃和自由发射的结合。与1.1 mm的图像相比，2.1 mm的图像在R~40 au附近显示出更明显的“肩”，突出了长波长观测对表征盘子结构的效用。光谱指数$\alpha$具有强烈的径向变化，最小值在发射峰附近，最大值在间隙附近。虽然低光谱指数通常被归因于颗粒生长和尘埃捕获，但GM Aur内部两个发射环的光学深度使得它们的尘埃特性模糊不清。间隙和外盘(R>100$ au)在两个波长下都很薄。同时，HCO$^+$的发射表明，气体腔比由毫米连续体追踪的尘埃腔更紧凑，类似于其他传统上被归类为“过渡”的圆盘。

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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arXiv: Earth and Planetary Astrophysics

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