S. Grunblatt, Nicholas Saunders, Dan Huber, D. Thorngren, S. Vissapragada, Stephanie Yoshida, K. Schlaufman, S. Giacalone, M. Macdougall, A. Chontos, E. Turtelboom, C. Beard, J. M. A. Murphy, M. Rice, H. Isaacson, R. Angus, Andrew W. Howard
{"title":"TESS Giants Transiting Giants. IV. A Low-density Hot Neptune Orbiting a Red Giant Star","authors":"S. Grunblatt, Nicholas Saunders, Dan Huber, D. Thorngren, S. Vissapragada, Stephanie Yoshida, K. Schlaufman, S. Giacalone, M. Macdougall, A. Chontos, E. Turtelboom, C. Beard, J. M. A. Murphy, M. Rice, H. Isaacson, R. Angus, Andrew W. Howard","doi":"10.3847/1538-3881/ad4149","DOIUrl":null,"url":null,"abstract":"Hot Neptunes, gaseous planets smaller than Saturn (∼3–8 R ⊕) with orbital periods less than 10 days, are rare. Models predict this is due to high-energy stellar irradiation stripping planetary atmospheres over time, often leaving behind only rocky planetary cores. Using our TESS full-frame-image pipeline giants in conjunction with Keck/HIRES radial velocity measurements, we present the discovery of TIC365102760 b, a 6.2 R ⊕(0.55 R J), 19.2 M ⊕(0.060 M J) planet transiting a red giant star every 4.21285 days. The old age and high equilibrium temperature yet remarkably low density of this planet ( ρp=0.58−0.20+0.30ρJ ) suggest that its gaseous envelope should have been stripped by high-energy stellar irradiation billions of years ago. The present-day planet mass and radius suggest the atmospheric stripping was slower than predicted. Unexpectedly low stellar activity and/or late-stage planet inflation could be responsible for the observed properties of this system. Further studies of this system with more precise photometry in multiple passbands will be capable of revealing more details of this planet’s atmosphere.","PeriodicalId":424210,"journal":{"name":"The Astronomical Journal","volume":"295 8","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-06-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"The Astronomical Journal","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.3847/1538-3881/ad4149","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Hot Neptunes, gaseous planets smaller than Saturn (∼3–8 R ⊕) with orbital periods less than 10 days, are rare. Models predict this is due to high-energy stellar irradiation stripping planetary atmospheres over time, often leaving behind only rocky planetary cores. Using our TESS full-frame-image pipeline giants in conjunction with Keck/HIRES radial velocity measurements, we present the discovery of TIC365102760 b, a 6.2 R ⊕(0.55 R J), 19.2 M ⊕(0.060 M J) planet transiting a red giant star every 4.21285 days. The old age and high equilibrium temperature yet remarkably low density of this planet ( ρp=0.58−0.20+0.30ρJ ) suggest that its gaseous envelope should have been stripped by high-energy stellar irradiation billions of years ago. The present-day planet mass and radius suggest the atmospheric stripping was slower than predicted. Unexpectedly low stellar activity and/or late-stage planet inflation could be responsible for the observed properties of this system. Further studies of this system with more precise photometry in multiple passbands will be capable of revealing more details of this planet’s atmosphere.
热海王星是小于土星(∼3-8 R ⊕)、轨道周期小于10天的气态行星,这种行星非常罕见。根据模型预测,这是由于高能恒星辐照会随着时间的推移剥离行星大气层,通常只留下岩石行星核心。利用我们的TESS全帧图像管道巨行星以及Keck/HIRES径向速度测量,我们发现了TIC365102760 b,这是一颗6.2 R ⊕(0.55 R J)、19.2 M ⊕(0.060 M J)的行星,每4.21285天穿越一颗红巨星。这颗行星的年龄较大,平衡温度较高,但密度却非常低(ρp=0.58-0.20+0.30ρJ),这表明它的气态包膜应该是在数十亿年前被高能恒星辐照剥离的。目前行星的质量和半径表明大气层的剥离比预测的要慢。意料之外的低恒星活动和/或晚期行星膨胀可能是观测到的该系统特性的原因。利用多通带更精确的光度计对该系统进行进一步研究,将能够揭示该行星大气层的更多细节。
求助内容:
应助结果提醒方式:
京公网安备 11010802042870号
