Sarah Lange, Joseph M. Akana Murphy, N. Batalha, I. Crossfield, C. Dressing, B. Fulton, A. Howard, Dan Huber, H. Isaacson, S. R. Kane, E. Petigura, P. Robertson, L. Weiss, A. Behmard, C. Beard, S. Blunt, C. Brinkman, A. Chontos, Fei Dai, P. Dalba, T. Fetherolf, S. Giacalone, M. Hill, R. Holcomb, J. Lubin, M. MacDougall, A. Mayo, T. Močnik, D. Pidhorodetska, A. Polanski, M. Rice, L. Rosenthal, R. Rubenzahl, N. Scarsdale, E. Turtelboom, Judah Van Zandt, D. Ciardi, A. Boyle
{"title":"TESS-Keck 勘测。VII.一颗环绕 TOI-1824* 的超密集亚海王星","authors":"Sarah Lange, Joseph M. Akana Murphy, N. Batalha, I. Crossfield, C. Dressing, B. Fulton, A. Howard, Dan Huber, H. Isaacson, S. R. Kane, E. Petigura, P. Robertson, L. Weiss, A. Behmard, C. Beard, S. Blunt, C. Brinkman, A. Chontos, Fei Dai, P. Dalba, T. Fetherolf, S. Giacalone, M. Hill, R. Holcomb, J. Lubin, M. MacDougall, A. Mayo, T. Močnik, D. Pidhorodetska, A. Polanski, M. Rice, L. Rosenthal, R. Rubenzahl, N. Scarsdale, E. Turtelboom, Judah Van Zandt, D. Ciardi, A. Boyle","doi":"10.3847/1538-3881/ad34d9","DOIUrl":null,"url":null,"abstract":"\n We confirm a massive sub-Neptune-sized planet on a P = 22.8 days orbit around the star TOI-1824 (T\n eff = 5200 K, V = 9.7 mag). TESS first identified TOI-1824 b (formerly TOI-1824.01) as an object of interest in 2020 April after two transits in Sector 22 were matched with a single transit in Sector 21. TOI-1824 was subsequently targeted for ground-based Doppler monitoring with Keck-HIRES and APF-Levy. Using a joint model of the TESS photometry, radial velocities, and Ca ii H and K emission measurements as an activity indicator, we find that TOI-1824 b is an unusually dense sub-Neptune. The planet has a radius R\n p = 2.63 ± 0.15 R\n ⊕ and mass M\n p = 18.5 ± 3.2 M\n ⊕, implying a bulk density of 5.6 ± 1.4 g cm−3. TOI-1824 b's mass and radius situate it near a small group of “superdense sub-Neptunes” (R\n p ≲ 3 R\n ⊕ and M\n p ≳ 20 M\n ⊕). While the formation mechanism of superdense sub-Neptunes is a mystery, one possible explanation is the constructive collision of primordial icy cores; such giant impacts would drive atmospheric escape and could help explain these planets' apparent lack of massive envelopes. 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Turtelboom, Judah Van Zandt, D. Ciardi, A. Boyle\",\"doi\":\"10.3847/1538-3881/ad34d9\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"\\n We confirm a massive sub-Neptune-sized planet on a P = 22.8 days orbit around the star TOI-1824 (T\\n eff = 5200 K, V = 9.7 mag). TESS first identified TOI-1824 b (formerly TOI-1824.01) as an object of interest in 2020 April after two transits in Sector 22 were matched with a single transit in Sector 21. TOI-1824 was subsequently targeted for ground-based Doppler monitoring with Keck-HIRES and APF-Levy. Using a joint model of the TESS photometry, radial velocities, and Ca ii H and K emission measurements as an activity indicator, we find that TOI-1824 b is an unusually dense sub-Neptune. The planet has a radius R\\n p = 2.63 ± 0.15 R\\n ⊕ and mass M\\n p = 18.5 ± 3.2 M\\n ⊕, implying a bulk density of 5.6 ± 1.4 g cm−3. TOI-1824 b's mass and radius situate it near a small group of “superdense sub-Neptunes” (R\\n p ≲ 3 R\\n ⊕ and M\\n p ≳ 20 M\\n ⊕). 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引用次数: 0
摘要
我们确认了一颗海王星大小的大质量行星,其P = 22.8天的轨道围绕着TOI-1824号恒星(T eff = 5200 K,V = 9.7等)运行。TESS于2020年4月首次将TOI-1824 b(以前的TOI-1824.01)确定为关注对象,因为22扇区的两次凌日与21扇区的一次凌日相吻合。随后,TOI-1824 成为 Keck-HIRES 和 APF-Levy 的地面多普勒监测目标。利用TESS光度测量、径向速度以及Ca ii H和K发射测量的联合模型作为活动指标,我们发现TOI-1824 b是一颗异常致密的亚海王星。这颗行星的半径 R p = 2.63 ± 0.15 R ⊕,质量 M p = 18.5 ± 3.2 M ⊕,意味着体积密度为 5.6 ± 1.4 g cm-3。TOI-1824 b的质量和半径使它接近于一小群 "超密集亚海王星"(R p ≲ 3 R ⊕和M p ≳ 20 M ⊕)。虽然超密集亚海王星的形成机制是个谜,但一种可能的解释是原始冰核的建设性碰撞;这种巨大的撞击将推动大气逃逸,并有助于解释这些行星明显缺乏大质量包层的原因。我们将在这些过密行星的背景下讨论TOI-1824 b,它们在系外行星质量-半径平面上的独特位置使其成为行星形成的潜在重要示踪物。
The TESS-Keck Survey. VII. A Superdense Sub-Neptune Orbiting TOI-1824*
We confirm a massive sub-Neptune-sized planet on a P = 22.8 days orbit around the star TOI-1824 (T
eff = 5200 K, V = 9.7 mag). TESS first identified TOI-1824 b (formerly TOI-1824.01) as an object of interest in 2020 April after two transits in Sector 22 were matched with a single transit in Sector 21. TOI-1824 was subsequently targeted for ground-based Doppler monitoring with Keck-HIRES and APF-Levy. Using a joint model of the TESS photometry, radial velocities, and Ca ii H and K emission measurements as an activity indicator, we find that TOI-1824 b is an unusually dense sub-Neptune. The planet has a radius R
p = 2.63 ± 0.15 R
⊕ and mass M
p = 18.5 ± 3.2 M
⊕, implying a bulk density of 5.6 ± 1.4 g cm−3. TOI-1824 b's mass and radius situate it near a small group of “superdense sub-Neptunes” (R
p ≲ 3 R
⊕ and M
p ≳ 20 M
⊕). While the formation mechanism of superdense sub-Neptunes is a mystery, one possible explanation is the constructive collision of primordial icy cores; such giant impacts would drive atmospheric escape and could help explain these planets' apparent lack of massive envelopes. We discuss TOI-1824 b in the context of these overdense planets, whose unique location in the exoplanet mass–radius plane make them a potentially valuable tracer of planet formation.
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