Slow Rotation for the Super-Puff Planet Kepler-51d

Caleb Lammers, Joshua N. Winn
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Abstract

Super-puffs are low-density planets of unknown origin and composition. If they form by accreting nebular gas through a circumplanetary disk, one might expect super-puffs to be spinning quickly. Here, we derive upper limits on the rotational oblateness of the super-puff Kepler-51d, based on precise transit observations with the NIRSpec instrument aboard the James Webb Space Telescope. The absence of detectable oblateness-related anomalies in the light curve leads to an upper limit of about $0.15$ on the planet's sky-projected oblateness. Assuming the sky-projected oblateness to be representative of the true oblateness, the rotation period of Kepler-51d is $\gtrsim 40$ hours, or equivalently, its rotation speed is $\lesssim 42\%$ of the breakup speed. Alternatively, if the apparently low density of Kepler-51d is due to an opaque planetary ring, the ring must be oriented within $27\deg$ of face-on and have an inner radius smaller than $1.2$ times the planet's radius. The lack of anomalies exceeding $0.01\%$ in the ingress and egress portions of the light curve also places a constraint on the model of Wang & Dai, in which the planet's apparently low density is due to a dusty outflowing atmosphere.
超级泡芙行星开普勒-51d的缓慢自转
超级泡芙是起源和成分不明的低密度行星。如果它们是通过环行星盘吸积星云气体形成的,那么人们可能会期待超级泡芙快速旋转。这里,我们根据詹姆斯-韦伯太空望远镜(James Webb Space Telescope)上的近红外望远镜(NIRSpec)的精确凌日观测,推导出了超级泡芙 Kepler-51d 的旋转扁圆度上限。另外,如果开普勒-51d表面上的低密度是由于一个不透明的行星环造成的,那么这个行星环的方向必须在面朝上的27deg以内,并且其内半径小于行星半径的1.2倍。在光曲线的入口和出口部分缺乏超过0.01美元/%$的异常,这也对Wang和Dai的模型施加了限制,在他们的模型中,行星明显的低密度是由于尘埃外流大气造成的。
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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