陰影帶

在2017年8月21日全食期間觀測到的陰影帶。視頻顯示攤在陽光下的地面上的一張白色床單（36 x 66英寸，0.91 x 1.7米）。陰影帶開始時很微弱，隨著食分增加至太陽呈現新月形時才逐漸變得強烈，並在第二接觸，即全食開始的時突然消失。可以在音訊上聽出周遭人群的氛圍：對視覺上的陰影帶奇觀和日全食開始的黑暗做出的反應。

日食陰影帶是出現在日全食開始之前和結束之後，出現在素色表面可以看到的波浪狀交替、平行移動的光線微弱^[1]。它們是由大氣湍流折射所引起的閃爍 (天文學)（英语：Twinkling）現象^[2]，當太陽呈現細薄的新月形時，原本歧散的陽光因類似穿過狹縫而趨近準直光束（英语：Collimated light），在前後各約一分鐘時最為明顯而較易觀察到^[2]^[3]^[4]。

陰影的細部結構是由隨機的大氣擾動，即微細的空氣湍流模式，折射從狹窄的新月形太陽射出近似準直的光束造成。

陰影帶快速滑動的運動是由於氣流變化與太陽以高角度投射的角運動兩相結合造成。隨著月牙型的太陽變薄，陽光的準直性逐漸增加，因影帶也越來越明顯，直到太陽盤面完全被遮蔽，日全食開始就嘎然而止。

恆星的光也是因為同樣的原因而閃爍。他們離地球太遠，因而成為點光源，就很容易受到地球大氣湍流的影響。這些湍流就像透鏡和稜鏡一，會偏移光線的路徑。看著準直的星光，大氣折射造成的陰影帶就會穿過我們的眼睛。

歷史

在西元9世紀，在一次日全食中首度被描述－－在舊冰島詩體埃達中的一部分：女巫的預言^{[來源請求]}
在1820年，德國天文學家赫爾曼·邁爾·薩洛蒙·戈爾德施密特（Hermann Goldschmidt）注意到在日全食的前後可以看見陰影帶^[5]^[6]^[7]。
在1842年，英國天文學家喬治·比德爾·艾里（George B. Airy）第一次觀察日全食。他回憶說陰影帶適量點之一："隨著全食的逼近，牆壁和地面上出現了奇怪的光波動。景象是如此的驚人，以至於在有些地方的孩子們追趕著，並試圖用手去抓住它他回憶說,陰影帶是亮點之一:"隨著整體的臨近,牆壁和地面上出現了奇怪的光波動,如此驚人,以至於在有些地方,孩子們追趕它,試圖用手抓住它。 ^[8]。"
在2008年，英國天體物理學家斯圖爾特·伊夫斯（Stuart Eves）推測，陰影帶可能是次聲波的效應。這涉及以超音速移動的月球陰影，並引發大氣的衝擊波。然而，天文學教授巴里·鐘斯（Barrie Jones），一位陰影帶的專家指出："一般相信的理論有效，沒有必要尋求另一個替代方案^[9]。"

參考資料

^ Effects During a Total Solar Eclipse Archive.is的存檔，存档日期2012-07-30
^ ^2.0 ^2.1 J. L. Codona. The Scintillation Theory of Eclipse Shadow Bands. Astronomy and Astrophysics. 1986, 164: 415–27 [18 July 2017]. Bibcode:1986A&A...164..415C. ISSN 0004-6361. （原始内容存档于2019-08-13）.
^ Jones, Barrie. Explanation from Barrie Jones, Open University. [2010-07-24]. （原始内容存档于2010-07-22）.
^ Strickling, Wolfgang. Wolfgang Strickling's eclipse observations 2001 page. 2007-01-26 [24 July 2010]. （原始内容存档于2019-05-11）. The best theory for the emergence of the shadow bands is published by Codona 1986 [2]. His theory meanwhile accepted by the most scientists. ... movement of the shadow bands is caused by winds in the different atmospheric levels.
^ Guillermier, Pierre; Koutchmy, Serge. Total Eclipses: Science, Observations, Myths and Legends. Springer Publishing. 1999: 151. The phenomenon of shadow bands – a success of light and dark striations – is somewhat random. German astronomer Hermann Goldschmidt was the first to remark upon this complex refraction phenomenon, in 1820.
^ Maunder, Michael J. de F.; Moore, Patrick. Eclipses – General Principles. The Sun in Eclipse. Springer Publishing. 1998: 55. Shadow Bands. In 1820 the German astronomer Hermann Goldschmidt was the first to notice wavy lines seen across the Earth's surface just before totality. These so-called shadow bands [...]
^ Chapter IX: Shadow Bands. Memoirs 41. Royal Astronomical Society. 1857: 40–41.
^ M. Littmann, K. Willcox, F. Espenak: Totality: eclipses of the sun 2nd edition. Oxford University Press. p. 119
^ Sound 'cause of shadow spectacle'. BBC News. May 21, 2008 [2009-11-14]. （原始内容存档于2009-04-17）.

[1] Effects During a Total Solar Eclipse Archive.is的存檔，存档日期2012-07-30

[codona-2] 2.0 ^2.1 J. L. Codona. The Scintillation Theory of Eclipse Shadow Bands. Astronomy and Astrophysics. 1986, 164: 415–27 [18 July 2017]. Bibcode:1986A&A...164..415C. ISSN 0004-6361. （原始内容存档于2019-08-13）.

[3] Jones, Barrie. Explanation from Barrie Jones, Open University. [2010-07-24]. （原始内容存档于2010-07-22）.

[4] Strickling, Wolfgang. Wolfgang Strickling's eclipse observations 2001 page. 2007-01-26 [24 July 2010]. （原始内容存档于2019-05-11）. The best theory for the emergence of the shadow bands is published by Codona 1986 [2]. His theory meanwhile accepted by the most scientists. ... movement of the shadow bands is caused by winds in the different atmospheric levels.

[5] Guillermier, Pierre; Koutchmy, Serge. Total Eclipses: Science, Observations, Myths and Legends. Springer Publishing. 1999: 151. The phenomenon of shadow bands – a success of light and dark striations – is somewhat random. German astronomer Hermann Goldschmidt was the first to remark upon this complex refraction phenomenon, in 1820.

[6] Maunder, Michael J. de F.; Moore, Patrick. Eclipses – General Principles. The Sun in Eclipse. Springer Publishing. 1998: 55. Shadow Bands. In 1820 the German astronomer Hermann Goldschmidt was the first to notice wavy lines seen across the Earth's surface just before totality. These so-called shadow bands [...]

[7] Chapter IX: Shadow Bands. Memoirs 41. Royal Astronomical Society. 1857: 40–41.

[8] M. Littmann, K. Willcox, F. Espenak: Totality: eclipses of the sun 2nd edition. Oxford University Press. p. 119

[9] Sound 'cause of shadow spectacle'. BBC News. May 21, 2008 [2009-11-14]. （原始内容存档于2009-04-17）.

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