Secular stability of surface abundance structures in the rapidly rotating Ap star 56 Ari

I. Potravnov, N. Piskunov, T. Ryabchikova
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Abstract

The combination of the surface magnetic and abundance inhomogeneities in chemically peculiar Ap/Bp stars is responsible for their rotationally modulated variability. Within the framework of the fossil field hypothesis, these inhomogeneities are considered to be essentially stable over the main sequence (MS) timescale. However, a small group of Ap/Bp stars show rotational period changes that are not fully understood. Here, we present results of Doppler imaging (DI) of the rapidly rotating Ap star 56 Ari whose changes in period had previously been detected. A reconstruction of the surface distribution of silicon in 56 Ari reveals its complex spot pattern, which is responsible for the rotationally light variability and is correlated with a magnetic field modulation. Comparisons of abundance maps obtained over the unprecedentedly long (for such studies) interval from 1986 to 2014 confirms the stability and rigid rotation of the spot pattern. Thus, we find the period change in 56 Ari is not caused by a rearrangement of the surface magnetic structures and/or atomic diffusion operating on short timescale. It is also unlikely to be explained by the visibility changes of the spots due to the free-body precession of the stellar rotational axis. We briefly discuss possible alternative explanations of the period variability.
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快速旋转的 Ap 星 56 Ari 表面丰度结构的周期稳定性
化学性质奇特的Ap/Bp星的表面磁性和丰度不均匀性是造成其旋转调制变异性的原因。在化石场假说的框架内,这些不均匀性被认为在主序(MS)时间尺度上基本上是稳定的。然而,有一小部分Ap/Bp恒星表现出的自转周期变化还没有被完全理解。在这里,我们展示了对快速旋转的 Ap 星 56 Ari 的多普勒成像(DI)结果。对 56 Ari 星硅表面分布的重建揭示了其复杂的光斑模式,它是自转光变的原因,并与磁场调制相关。对从 1986 年到 2014 年这一史无前例的长间隔(对此类研究而言)内获得的丰度图进行比较,证实了光斑模式的稳定性和刚性旋转。因此,我们发现 56 Ari 的周期变化不是由表面磁结构的重新排列和/或短时原子扩散引起的。它也不太可能由恒星自转轴的自由体前冲引起的光斑能见度变化来解释。我们简要讨论了周期变化的其他可能解释。
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