凌日時間變分法

動畫顯示系統內行星-1和行星-2在凌日時間上的差異。創建者：NASA/克卜勒任務。

凌日時間變分法是通過觀察凌日時間變化以檢測系外行星的一種方法。這提供了一種極其靈敏，可以用來檢測地球大小系外行星的方法^[1]^[2]^[3]。"時間變異"需要精確的測量凌發生的時刻，才可以可測量出週期的改變。

第一顆以凌日時間變異檢測出的非凌日行星是由NASA的克卜勒任務衛星完成的。凌日的克卜勒-19b顯示在300天的週期中有著5分鐘的振幅變異，顯示有另一顆行星克卜勒-19c存在著，它的合理週期可能接近這顆凌日行星的數倍^[4]^[5]。

在2010年，研究人員依據凌日時間變分法建議WASP-3也有第二顆的行星存在^[6]^[7]，但是在2012年這項建議被否定了^[8]。

凌日時間變分法的技術在2012年被用來發現克卜勒-9d，並被普遍的用於驗證系外行星的發現^[9]。

參考資料

^ Miralda-Escude. Orbital perturbations on transiting planets: A possible method to measure stellar quadrupoles and to detect Earth-mass planets. The Astrophysical Journal. 2001, 564 (2): 1019. Bibcode:2002ApJ...564.1019M. arXiv:astro-ph/0104034 . doi:10.1086/324279.
^ Holman; Murray. The Use of Transit Timing to Detect Extrasolar Planets with Masses as Small as Earth. Science :-,2005. 2004, 307 (1291). arXiv:astro-ph/0412028 . doi:10.1106/science.1107822.
^ Agol; Sari; Steffen; Clarkson. On detecting terrestrial planets with timing of giant planet transits. Monthly Notices of the Royal Astronomical Society. 2004, 359 (2): 567–579. Bibcode:2005MNRAS.359..567A. arXiv:astro-ph/0412032 . doi:10.1111/j.1365-2966.2005.08922.x.
^ Invisible World Discovered （页面存档备份，存于互联网档案馆）, NASA Kepler News, 8 September 2011
^ Ballard; et. al.; Francois Fressin; David Charbonneau; Jean-Michel Desert; Guillermo Torres; Geoffrey Marcy; Burke; Howard Isaacson. The Kepler-19 System: A Transiting 2.2 R_Earth Planet and a Second Planet Detected via Transit Timing Variations. 2011. arXiv:1109.1561  [astro-ph.EP].
^ Planet found tugging on transits （页面存档备份，存于互联网档案馆）, Astronomy Now, 9 July 2010
^ G.Maciejewski, D.Dimitrov, R.Neuhaeuser, A.Niedzielski, St.Raetz, Ch.Ginski, Ch.Adam, C.Marka, M.Moualla, M.Mugrauer. Transit timing variation in exoplanet WASP-3b. 2010. arXiv:1006.1348v1  [astro-ph.EP].
^ M Montalto; et al. A new analysis of the WASP-3 system: no evidence for an additional companion. MNRAS. Nov 2, 2012. arXiv:1211.0218 .
^ The Transit Timing Variation (TTV) Planet-finding Technique Begins to Flower. [2013-01-12]. （原始内容存档于2017-03-30）.

外部連結

TTV papers

[1] Miralda-Escude. Orbital perturbations on transiting planets: A possible method to measure stellar quadrupoles and to detect Earth-mass planets. The Astrophysical Journal. 2001, 564 (2): 1019. Bibcode:2002ApJ...564.1019M. arXiv:astro-ph/0104034 . doi:10.1086/324279.

[2] Holman; Murray. The Use of Transit Timing to Detect Extrasolar Planets with Masses as Small as Earth. Science :-,2005. 2004, 307 (1291). arXiv:astro-ph/0412028 . doi:10.1106/science.1107822.

[3] Agol; Sari; Steffen; Clarkson. On detecting terrestrial planets with timing of giant planet transits. Monthly Notices of the Royal Astronomical Society. 2004, 359 (2): 567–579. Bibcode:2005MNRAS.359..567A. arXiv:astro-ph/0412032 . doi:10.1111/j.1365-2966.2005.08922.x.

[4] Invisible World Discovered （页面存档备份，存于互联网档案馆）, NASA Kepler News, 8 September 2011

[5] Ballard; et. al.; Francois Fressin; David Charbonneau; Jean-Michel Desert; Guillermo Torres; Geoffrey Marcy; Burke; Howard Isaacson. The Kepler-19 System: A Transiting 2.2 R_Earth Planet and a Second Planet Detected via Transit Timing Variations. 2011. arXiv:1109.1561  [astro-ph.EP].

[6] Planet found tugging on transits （页面存档备份，存于互联网档案馆）, Astronomy Now, 9 July 2010

[7] G.Maciejewski, D.Dimitrov, R.Neuhaeuser, A.Niedzielski, St.Raetz, Ch.Ginski, Ch.Adam, C.Marka, M.Moualla, M.Mugrauer. Transit timing variation in exoplanet WASP-3b. 2010. arXiv:1006.1348v1  [astro-ph.EP].

[Montalto-8] M Montalto; et al. A new analysis of the WASP-3 system: no evidence for an additional companion. MNRAS. Nov 2, 2012. arXiv:1211.0218 .

[9] The Transit Timing Variation (TTV) Planet-finding Technique Begins to Flower. [2013-01-12]. （原始内容存档于2017-03-30）.

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