Planets orbiting post-common envelope binaries provide fundamental information on planet formation and evolution. We searched for such planets in NN Ser ab, an eclipsing short-period binary that shows long-term eclipse time variations. Using published, reanalysed, and new mid-eclipse times of NN Ser ab obtained between 1988 and 2010, we find excellent agreement with the light-travel-time effect produced by two additional bodies superposed on the linear ephemeris of the binary. Our multi-parameter fits accompanied by N-body simulations yield a best fit for the objects NN Ser (ab)c and d locked in the 2:1 mean motion resonance, with orbital periods Pc 15.5 yrs and Pd 7.7 yrs, masses Mc sin ic 6.9 MJup and Md sin id 2.2 MJup and eccentricities ec 0 and ed 0.20. A secondary χ2 minimum corresponds to an alternative solution with a period ratio of 5:2. We estimate that the progenitor binary consisted of an A star with ~2 and the present M dwarf secondary at an orbital separation of ~1.5 AU. The survival of two planets through the common-envelope phase that created the present white dwarf requires fine tuning between the gravitational force and the drag force experienced by them in the expanding envelope. The alternative is a second-generation origin in a circumbinary disk created at the end of this phase. In that case, the planets would be extremely young with ages not exceeding the cooling age of the white dwarf of 106 yrs.
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机译:绕过后公共包膜二进制运动的行星提供了有关行星形成和演化的基本信息。我们在NN Ser ab中搜索了这样的行星,这是一种蚀蚀的短周期二进制,显示了长期蚀蚀的时间变化。使用1988年至2010年获得的NN Ser ab的已发布,重新分析的和新的中偏食时间,我们发现与两个附加星体叠加在双星的线性星历上产生的光传播时间效应极为吻合。我们的多参数拟合以及N体模拟为锁定在2:1平均运动共振中的NN Ser(ab)c和d物体提供了最佳拟合,轨道周期Pc为15.5年,Pd为7.7年,质量为Mc sin ic 6.9 MJup和Md sin id 2.2 MJup和偏心率ec 0和ed 0.20。次要χ2最小值对应于周期比为5:2的替代解决方案。我们估计,祖先的双星由一颗〜2的A星和当前的M矮次级星组成,轨道间隔约为1.5 AU。两颗行星要通过共同包络阶段的生存来产生当前的白矮星,需要在引力和膨胀圈中所经历的阻力之间进行微调。替代方案是在此阶段结束时创建的外接磁盘的第二代起源。在这种情况下,这些行星将非常年轻,其年龄不超过白矮星106年的冷却年龄。
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