Polar Neptunes are Stable to Tides

Emma Louden, Sarah Millholland
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Abstract

There is an intriguing and growing population of Neptune-sized planets with stellar obliquities near $\sim90^{\circ}$. One previously proposed formation pathway is a disk-driven resonance, which can take place at the end stages of planet formation in a system containing an inner Neptune, outer cold Jupiter, and protoplanetary disk. This mechanism occurs within the first $\sim10$ Myr, but most of the polar Neptunes we see today are $\sim$Gyrs old. Up until now, there has not been an extensive analysis of whether the polar orbits are stable over $\sim$Gyr timescales. Tidal realignment mechanisms are known to operate in other systems, and if they are active here, this would cause theoretical tension with a primordial misalignment story. In this paper, we explore the effects of tidal evolution on the disk-driven resonance theory. We use both $N$-body and secular simulations to study tidal effects on both the initial resonant encounter and long-term evolution. We find that the polar orbits are remarkably stable on $\sim$Gyr timescales. Inclination damping does not occur for the polar cases, although we do identify sub-polar cases where it is important. We consider two case study polar Neptunes, WASP-107 b and HAT-P-11 b, and study them in the context of this theory, finding consistency with present-day properties if their tidal quality factors are $Q \gtrsim 10^4$ and $Q \gtrsim 10^5$, respectively.
极地海王星对潮汐稳定
在海王星大小的行星中,恒星倾角接近$\sim90^{\circ}$的行星数量正在不断增加,这一点非常有趣。之前提出的一种形成途径是磁盘驱动共振,它可能发生在一个包含内海王星、外冷木星和原行星盘的系统中行星形成的末期阶段。这种机制发生在最初的10亿年内,但我们今天看到的大多数极地海王星的年龄都是10亿年。到目前为止,还没有对极地轨道是否在$/sim$Gyr时间尺度上稳定进行过广泛的分析。众所周知,潮汐变轨机制在其他系统中也起作用,如果潮汐变轨机制在这里也起作用的话,那么就会造成原始错位理论的理论张力。在本文中,我们探讨了潮汐演化对磁盘驱动共振理论的影响。我们使用N$体和世俗模拟来研究潮汐对初始共振相遇和长期演化的影响。我们发现极轨道在$\sim$Gyr时间尺度上非常稳定。倾角阻尼在极地情况下并不存在,尽管我们确实发现了它很重要的亚极地情况。我们考虑了两个极地海王星案例--WASP-107 b和HAT-P-11b,并在这一理论背景下对它们进行了研究,发现如果它们的潮汐质量因子分别为Q \gtrsim 10^4$和Q \gtrsim 10^5$,那么它们与现在的特性是一致的。
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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