开普勒1625b I

**开普勒-1625b I**
	艺术家概念环绕系外行星开普勒1625b的系外卫星开普勒1625b I。
发现
发现者	Alex Teachey, David M. Kipping和Allan R. Schmitt
发现日期	2017
检测方法	主凌日
轨道参数
隶属天体	开普勒1625b
物理特征
平均半径	0.437 RJ
质量	19.069 M🜨; 0.06 MJ
平均密度	0.95 g/cm3

开普勒-1625b I，系外行星开普勒1625b的一颗可能的卫星，可能是有史以来发现的第一颗系外卫星（有待确认），并在开普勒太空望远镜的初步观测后首次表明^[4]。2017年10月，哈伯太空望远镜进行了一次更彻底的观测活动，最终于2018年10月初在《科学进展（英语：Science Advances）》上发表了一篇发现论文。与这颗卫星的发现有关的研究表明，宿主系外行星的大小高达几颗木星质量，而卫星的质量被认为大约相当于海王星。像太阳系中的几个卫星一样^[5]，尽管还没有发现子卫星的证据，理论上，大的系外卫星也能够在稳定的轨道上拥有自己的，称为子卫星的卫星^[6]。

使用木星和海王星的影像，开普勒1625b与其卫星“开普勒-1625b-I”的相对大小和距离。

研究和观察

原始论文^[2]提出了系外卫星的两条独立证据线，一条凌日时间变分法表示海王星质量的卫星，另一条光度下降表示海王星半径的卫星。对2019年2月发表的观测结果的独立重新分析^[7]恢复了两者，但表明倾斜和隐藏的热木星也可能是罪魁祸首，这可以通过未来的多普勒光谱径向速度观测进行测试。第三项分析该数据集的研究恢复了凌日时间变分法的特征，但没有恢复光度下降，因此质疑了系外卫星假说^[8]。最初的发现团队后来发表的这篇论文，发现它们的重新还原表现出更高的系统学，这可能解释了它们的不同结论^[9]。

参考资料

^ Chou, Felicia; Villard, Ray; Hawkes, Alison; Brown, Katherine. Astronomers Find First Evidence of Possible Moon Outside Our Solar System. NASA. 3 October 2018 [5 October 2018].
^ ^2.0 ^2.1 Teachey, Alex; et al. Evidence for a large exomoon orbiting Kepler-1625b. Science Advances. 2018, 4 (10): eaav1784. Bibcode:2018SciA....4.1784T. PMC 6170104 . PMID 30306135. arXiv:1810.02362 . doi:10.1126/sciadv.aav1784.
^ The Extrasolar Planet Encyclopaedia — Kepler-1625 b I. Extrasolar Planets Encyclopaedia. [7 October 2018]. （原始内容存档于5 October 2018）.
^ Teachey, A.; Kipping, D. M.; Schmitt, A. R. HEK. VI. On the Dearth of Galilean Analogs in Kepler, and the Exomoon Candidate Kepler-1625b I. The Astronomical Journal. 26 July 2017, 155 (1): 36 (22 December 2017). Bibcode:2018AJ....155...36T. S2CID 118911978. arXiv:1707.08563 . doi:10.3847/1538-3881/aa93f2 .
^ Kollmeier, Juna A.; Raymond, Sean N. Can moons have moons?. Monthly Notices of the Royal Astronomical Society: Letters. 21 November 2018, 483: L80–L84. arXiv:1810.03304 . doi:10.1093/mnrasl/sly219.
^ Forgan, Duncan H. The habitable zone for Earth-like exomoons orbiting Kepler-1625b. International Journal of Astrobiology. 11 February 2019, 18 (6): 510–517. Bibcode:2019IJAsB..18..510F. ISSN 1473-5504. S2CID 118857039. arXiv:1810.02712 . doi:10.1017/s1473550418000514.
^ Heller, René; Rodenbeck, Kai; Giovanni, Bruno. An alternative interpretation of the exomoon candidate signal in the combined Kepler and Hubble data of Kepler-1625. Astronomy & Astrophysics. 17 April 2019, 624: 95. Bibcode:2019A&A...624A..95H. S2CID 119311103. arXiv:1902.06018 . doi:10.1051/0004-6361/201834913.
^ Kreidberg, Laura; Luger, Rodrigo; Bedell, Megan. No Evidence for Lunar Transit in New Analysis of Hubble Space Telescope Observations of the Kepler-1625 System. The Astrophysical Journal. 24 May 2019, 877 (2): L15. Bibcode:2019ApJ...877L..15K. S2CID 129945202. arXiv:1904.10618 . doi:10.3847/2041-8213/ab20c8 .
^ Teachey, Alex; Kipping, David M.; Burke, Christopher. Loose Ends for the Exomoon Candidate Host Kepler-1625b. The Astronomical Journal. 5 March 2020, 159 (4): 142. Bibcode:2020AJ....159..142T. S2CID 135465103. arXiv:1904.11896 . doi:10.3847/1538-3881/ab7001 .

[NASA-20181003-1] Chou, Felicia; Villard, Ray; Hawkes, Alison; Brown, Katherine. Astronomers Find First Evidence of Possible Moon Outside Our Solar System. NASA. 3 October 2018 [5 October 2018].

[Teachey2018-2] 2.0 ^2.1 Teachey, Alex; et al. Evidence for a large exomoon orbiting Kepler-1625b. Science Advances. 2018, 4 (10): eaav1784. Bibcode:2018SciA....4.1784T. PMC 6170104 . PMID 30306135. arXiv:1810.02362 . doi:10.1126/sciadv.aav1784.

[exoplanet.eu-3] The Extrasolar Planet Encyclopaedia — Kepler-1625 b I. Extrasolar Planets Encyclopaedia. [7 October 2018]. （原始内容存档于5 October 2018）.

[Teachey2017-4] Teachey, A.; Kipping, D. M.; Schmitt, A. R. HEK. VI. On the Dearth of Galilean Analogs in Kepler, and the Exomoon Candidate Kepler-1625b I. The Astronomical Journal. 26 July 2017, 155 (1): 36 (22 December 2017). Bibcode:2018AJ....155...36T. S2CID 118911978. arXiv:1707.08563 . doi:10.3847/1538-3881/aa93f2 .

[KollmeierRaymond2018-5] Kollmeier, Juna A.; Raymond, Sean N. Can moons have moons?. Monthly Notices of the Royal Astronomical Society: Letters. 21 November 2018, 483: L80–L84. arXiv:1810.03304 . doi:10.1093/mnrasl/sly219.

[6] Forgan, Duncan H. The habitable zone for Earth-like exomoons orbiting Kepler-1625b. International Journal of Astrobiology. 11 February 2019, 18 (6): 510–517. Bibcode:2019IJAsB..18..510F. ISSN 1473-5504. S2CID 118857039. arXiv:1810.02712 . doi:10.1017/s1473550418000514.

[Heller2019-7] Heller, René; Rodenbeck, Kai; Giovanni, Bruno. An alternative interpretation of the exomoon candidate signal in the combined Kepler and Hubble data of Kepler-1625. Astronomy & Astrophysics. 17 April 2019, 624: 95. Bibcode:2019A&A...624A..95H. S2CID 119311103. arXiv:1902.06018 . doi:10.1051/0004-6361/201834913.

[Kreidberg2019-8] Kreidberg, Laura; Luger, Rodrigo; Bedell, Megan. No Evidence for Lunar Transit in New Analysis of Hubble Space Telescope Observations of the Kepler-1625 System. The Astrophysical Journal. 24 May 2019, 877 (2): L15. Bibcode:2019ApJ...877L..15K. S2CID 129945202. arXiv:1904.10618 . doi:10.3847/2041-8213/ab20c8 .

[TK19-9] Teachey, Alex; Kipping, David M.; Burke, Christopher. Loose Ends for the Exomoon Candidate Host Kepler-1625b. The Astronomical Journal. 5 March 2020, 159 (4): 142. Bibcode:2020AJ....159..142T. S2CID 135465103. arXiv:1904.11896 . doi:10.3847/1538-3881/ab7001 .

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研究和观察

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参考资料