The Owl Nebula is a triple-shell planetary nebula with the outermost shell being a faint bow-shaped halo. We have obtained deep narrowband images and high-dispersion echelle spectra in the Hα, [O III], and [N II] emission lines to determine the physical structure of each shell in the nebula. These spatiokinematic data allow us to rule out hydrodynamic models that can reproduce only the nebular morphology. Our analysis shows that the inner shell of the main nebula is slightly elongated with a bipolar cavity along its major axis, the outer nebula is a filled envelope coexpanding with the inner shell at 40 km s-1, and the halo has been braked by the interstellar medium as the Owl Nebula moves through it. To explain the morphology and kinematics of the Owl Nebula, we suggest the following scenario for its formation and evolution. The early mass loss at the TP-AGB phase forms the halo, and the superwind at the end of the AGB phase forms the main nebula. The subsequent fast stellar wind compressed the superwind to form the inner shell and excavated an elongated cavity at the center, but this has ceased in the past. At the current old age the inner shell is backfilling the central cavity.
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机译:猫头鹰星云是三层行星状星云,最外层是微弱的弓形晕。我们已经获得了Hα,[O III]和[N II]发射线中的深层窄带图像和高分散阶梯光谱,以确定星云中每个壳的物理结构。这些空间运动学数据使我们可以排除只能重现神经形态的流体动力学模型。我们的分析表明,主星云的内壳在其主轴上略有拉长,带有双极型腔,外星云是一个充满的包膜,与内壳在40 km s-1处共同膨胀,并且晕圈已被猫头鹰星云穿过星际介质。为了解释猫头鹰星云的形态和运动学,我们提出以下有关其形成和演化的方案。 TP-AGB阶段的早期质量损失形成了光晕,而AGB阶段结束时的超风形成了主要的星云。随后的快速恒星风压缩了超风,形成了内壳,并在中心开挖了一个细长的空腔,但这在过去已经停止了。在目前的老龄化时代,内壳正在回填中央空腔。
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