寻找热木星的潮汐轨道衰变

Efrain Alvarado III, Kate B. Bostow, Kishore C. Patra, Cooper H. Jacobus, Raphael A. Baer-Way, Connor F. Jennings, Neil R. Pichay, Asia A. deGraw, Edgar P. Vidal, Vidhi Chander, Ivan A. Altunin, Victoria M. Brendel, Kingsley E. Ehrich, James D. Sunseri, Michael B. May, Druv H. Punjabi, Eli A. Gendreau-Distler, Sophia Risin, Thomas G. Brink, WeiKang Zheng, Alexei V. Filippenko
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引用次数: 0

摘要

我们研究了几个 "热木星 "系统--包括WASP-12 b、WASP-43 b、WASP-103 b、HAT-P-23 b、KELT-16 b、WD 1856+534 b和WTS-2 b--的凌日情况,目的是探测潮汐轨道衰变和延长凌日时间基线。虽然WASP-12 b的轨道确实在衰变,但我们并没有发现上述轨道衰变加速的证据,测量值为 $\ddot{P} = (-7 \pm 8) \times10^{-14} \rm ~s^{14} 。\rm ~s^{-1}$, 相对于预期的加速衰变 $\ddot{P}\approx -10^{-23}\rm ~s^{-1}$。在 WD 1856+534 b 的情况下,我们探测到了轨道的增长,其速度为 $\dot{P} = (5.0 \pm 1.5) \times10^{-10}$。对于大多数系统,我们提供了潮汐质量因子$Q_\star'$的95%置信度下限。我们还探讨了通过长期径向速度测量来探测热木星轨道衰变的可能性。我们发现,仅用3年的观测就能探测到WASP-12 b的轨道衰变,需要RV的精度为$\sim 1 \rm ~m~s^{-1}$。目前可用的 RV 测量和精度无法探测到本文研究的任何系统的轨道衰变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Searching for Tidal Orbital Decay in Hot Jupiters
We study transits of several ``hot Jupiter'' systems - including WASP-12 b, WASP-43 b, WASP-103 b, HAT-P-23 b, KELT-16 b, WD 1856+534 b, and WTS-2 b - with the goal of detecting tidal orbital decay and extending the baselines of transit times. We find no evidence of orbital decay in any of the observed systems except for that of the extensively studied WASP-12 b. Although the orbit of WASP-12 b is unequivocally decaying, we find no evidence for acceleration of said orbital decay, with measured $\ddot{P} = (-7 \pm 8) \times 10^{-14} \rm ~s^{-1}$, against the expected acceleration decay of $\ddot{P} \approx -10^{-23} \rm ~s^{-1}$. In the case of WD 1856+534 b, there is a tentative detection of orbital growth with $\dot{P} = (5.0 \pm 1.5) \times 10^{-10}$. While statistically significant, we err on the side of caution and wait for longer follow-up observations to consider the measured $\dot{P}$ real. For most systems, we provide a 95\%-confidence lower limit on the tidal quality factor, $Q_\star'$. The possibility of detecting orbital decay in hot Jupiters via long-term radial velocity (RV) measurements is also explored. We find that $\sim 1 \rm ~m~s^{-1}$ precision in RVs will be required to detect orbital decay of WASP-12 b with only 3 yr of observations. Currently available RV measurements and precision are unable to detect orbital decay in any of the systems studied here.
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