利用 ALMA 和 VLT/SPHERE-ZIMPOL 对 AGB 星 W Hya 的振动激发 H2O 线和可见偏振光同时进行高角分辨率成像

IF 8.3 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Applied Materials & Interfaces Pub Date : 2024-11-13 DOI:10.1051/0004-6361/202451977

K. Ohnaka, K. T. Wong, G. Weigelt, K.-H. Hofmann

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引用次数: 0

摘要

目的。我们展示了附近渐变巨枝（AGB）恒星 W Hya 的高方位分辨率毫米成像和可见光偏振成像，以更好地了解几个恒星半径内的动力学和尘埃形成。利用阿塔卡马大型毫米波/亚毫米波阵列（ALMA）在 268 和 251 GHz 波段对 W Hya 星的两条振动激发 H2O 线进行了观测，空间分辨率为 16 × 20 mas；利用甚大望远镜（VLT）/光谱-偏振高对比度系外行星研究（SPHERE）-苏黎世成像偏振计（ZIMPOL）在 748 和 820 nm 波段进行了观测，分辨率为 26 × 27 mas。ALMA的高空间分辨率使我们能够在268 GHz（v2 = 2, JKa, Kc = 65, 2-74, 3）处对恒星表面的振动激发H2O线的强发射进行成像，而不是对连续波的吸收，后者是热激发的预期结果。在恒星盘边缘和外侧也探测到了强烈的点状发射，角距为 ∼40 mas (∼1.9 R⋆)，延伸到 ∼60 mas (∼2.9 R⋆)。另一条在 251 GHz 处的 H2O 线（v2 = 2, JKa, Kc = 92, 8-83, 5）也被初步确定，具有类似的上层能量，显示出恒星表面的吸收。这表明在 268 GHz H2O 线中看到的表面发射是超热辐射，甚至是 maser 辐射。估计的气体温度和 H2O 密度与辐射泵送的 masers 相一致。268 GHz H2O 线显示，在 2-3 R⋆范围内有高达 ∼15 km s-1 的全局内流，但也有高达 ∼8 km s-1 的外流。在可见光范围内获得的偏振强度图显示，在∼40mas（∼1.9 R⋆）范围内形成了块状尘埃云，其中西南象限的尘埃云尤为突出，东侧的尘埃云较弱。268 GHz H2O 辐射与可见光偏振强度图重叠得很好，这表明非热辐射和可能的 maser H2O 辐射以及尘埃都来自 ∼2-3 R⋆范围内不均匀大气中的致密冷袋。

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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Contemporaneous high-angular-resolution imaging of the AGB star W Hya in vibrationally excited H2O lines and visible polarized light with ALMA and VLT/SPHERE-ZIMPOL

Aims. We present contemporaneous high-angular-resolution millimeter imaging and visible polarimetric imaging of the nearby asymptotic giant branch (AGB) star W Hya to better understand the dynamics and dust formation within a few stellar radii.Methods. The star W Hya was observed in two vibrationally excited H_{2_{O lines at 268 and 251 GHz with Atacama Large Millimeter/submillimeter Array (ALMA) at a spatial resolution of 16 × 20 mas and at 748 and 820 nm at a resolution of 26 × 27 mas with the Very Large Telescope (VLT)/Spectro-Polarimetric High-contrast Exoplanet REsearch (SPHERE)-Zurich Imaging Polarimeter (ZIMPOL).Results. ALMA’s high spatial resolution allowed us to image strong emission of the vibrationally excited H_{2_{O line at 268 GHz (v_{2_{= 2, J_{K_{a_{, K_{c_{_{= 6_{5, 2_{–7_{4, 3_{) over the stellar surface instead of absorption against the continuum, which is expected for thermal excitation. Strong, spotty emission was also detected along and just outside the stellar disk limb at an angular distance of ∼40 mas (∼1.9 R_{⋆_{), extending to ∼60 mas (∼2.9 R_{⋆_{). Another H_{2_{O line (v_{2_{= 2, J_{K_{a_{, K_{c_{_{= 9_{2, 8_{–8_{3, 5_{) at 251 GHz with a similar upper-level energy was tentatively identified, which shows absorption over the stellar surface. This suggests that the emission over the surface seen in the 268 GHz H_{2_{O line is suprathermal or even maser emission. The estimated gas temperature and H_{2_{O density are consistent with the radiatively pumped masers. The 268 GHz H_{2_{O line reveals global infall at up to ∼15 km s^{−1^{within 2–3 R_{⋆_{, but outflows at up to ∼8 km s^{−1^{are also present. The polarized intensity maps obtained in the visible reveal clumpy dust clouds forming within ∼40 mas (∼1.9 R_{⋆_{) with a particularly prominent cloud in the SW quadrant and a weaker cloud in the east. The 268 GHz H_{2_{O emission overlaps very well with the visible polarized intensity maps, which suggests that both the nonthermal and likely maser H_{2_{O emission and the dust originate from dense, cool pockets in the inhomogeneous atmosphere within ∼2–3 R_{⋆_.}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}

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来源期刊

ACS Applied Materials & Interfaces 工程技术-材料科学：综合

CiteScore
16.00

自引率
6.30%

发文量
4978

审稿时长
1.8 months

期刊介绍： ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.

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