Future solar systems

Claude Bertout , François Ménard
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引用次数: 2

Abstract

Widely regarded as pathological variable stars – with erratic photometric and spectroscopic behavior of unknown physical origin – 20 years ago, T Tauri stars (TTSs) turned out in the last decade to be promising laboratories for observing the formation of solar systems such as ours. This is because circumstellar, presumably protoplanetary disks were found to surround a large fraction of them. While evidence for disks was primarily indirect until 1995, recent high resolution imaging confirmed earlier claims that the infrared (IR) and ultraviolet (UV) excesses seen in the spectral energy distribution (SED) of these stars were due to disk emission. The activity displayed by young stellar objects at all wavelengths is due to the interaction between the circumstellar disk and the magnetized star and to non-stationary accretion/ejection phenomena. In this review, we briefly summarize properties of these young solar-type stars and describe their circumstellar disks in some detail, focusing on current optical, infrared and millimeter high angular resolution observations that now allow us to resolve the disks.

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未来的太阳系
20年前,金牛座T星(tts)被广泛认为是病态变星,具有不稳定的光度和光谱行为,物理起源不明。在过去的十年里,它被证明是观测太阳系形成的有希望的实验室,比如我们的太阳系。这是因为在大部分恒星周围发现了可能是原行星的圆盘。虽然直到1995年圆盘的证据主要是间接的,但最近的高分辨率成像证实了早期的说法,即在这些恒星的光谱能量分布(SED)中看到的红外(IR)和紫外线(UV)过量是由于圆盘发射。年轻恒星物体在所有波长上的活动都是由于星周盘和磁化恒星之间的相互作用以及非静止的吸积/抛射现象。在这篇综述中,我们简要地总结了这些年轻的太阳型恒星的特性,并详细地描述了它们的星周盘,重点是目前的光学、红外和毫米高角分辨率观测,这些观测现在使我们能够解析这些盘。
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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