High-Speed Outflows and Dusty Disks during the AGB to PN Transition: The PANORAMA survey

arXiv - PHYS - Solar and Stellar Astrophysics Pub Date : 2024-09-09 DOI:arxiv-2409.06038

Raghvendra Sahai, Javier Alcolea, Bruce Balick, Eric G. Blackman, Valentin Bujarrabal, Arancha Castro-Carrizo, Orsola De Marco, Joel Kastner, Hyosun Kim, Eric Lagadec, Chin-Fei Lee, Laurence Sabin, M. Santander-Garcia, Carmen Sánchez Contreras, Daniel Tafoya, Toshiya Ueta, Wouter Vlemmings, Albert Zijlstra

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Abstract

As mass-losing asymptotic giant branch (AGB) stars evolve to planetary nebulae (PNe), the mass outflow geometries transform from nearly spherical to extreme aspherical. The physical mechanisms governing this transformation are widely believed to be linked to binarity and the associated production of disks and fast jets during transitional (post-AGB) evolutionary stages. We are carrying out a systematic ALMA survey ($P$re-planet$A$ry $N$ebulae high-angular-res$O$lution su$R$vey with $A$L$MA$ or PANORAMA) of a representative sample of bipolar and multipolar post-AGB objects. We have obtained high angular-resolution (0".1-0".4) observations of the CO(3--2) and/or 6--5 emission in order to probe the spatio-kinematic structure of the collimated outflows and the central disk/torii. The results are remarkable, generally showing the presence of bipolar or multipolar high-velocity outflows, dense toroidal waists, and in one case, a geometrically-thin circular ring around the central bipolar nebula. A high degree of point-symmetry characterizes the morphology of the mass ejecta. In this contribution, we present these and other highlights from our survey. We aim to use 2D/3D radiative transfer modeling in order to derive accurate outflow momenta, masses and mass-loss rates for our sample, and build hydrodynamical models that can explain the observed spatio-kinematic structures. These results will then be used to distinguish between different classes of PN-shaping binary interaction models.

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AGB向PN过渡期间的高速外流和尘状盘：PANORAMA 勘测

当质量损失的渐变巨枝（AGB）恒星演化成行星状星云（PNe）时，质量流出的几何形状会从近似球形转变为极端非球形。人们普遍认为这种转变的物理机制与二元性以及在过渡（后AGB）演化阶段产生的相关磁盘和快速喷流有关。我们正在对具有代表性的双极和多极后AGB天体样本进行系统的ALMA巡天（P$re-planet$A$ry $N$ebulaehigh-angular-res$O$lution su$R$vey with $A$L$MA$ or PANORAMA）。我们获得了 CO（3--2）和/或 6--5 辐射的高角分辨率（0".1-0".4）观测数据，以探测共轭外流和中心盘/蝶形的空间运动结构。结果非常显著，一般都显示出存在双极或多极高速外流和致密的环状腰带，在一个情况下，中央双极星云周围还有一个几何上很薄的圆形环。质量喷出物的形态具有高度的点对称性。在本文中，我们将介绍这些以及我们的观测中发现的其他亮点。我们的目标是利用二维/三维辐射传递建模，为我们的样本推导出精确的流出矩、质量和质量损失率，并建立能够解释观测到的空间运动学结构的流体力学模型。然后将利用这些结果来区分不同类别的 PN 塑造双星相互作用模型。

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 - PHYS - Solar and Stellar Astrophysics

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