Timeline of snowflake research

The hexagonal snowflake, a crystalline formation of ice, has intrigued people throughout history. This is a chronology of interest and research into snowflakes. Artists, philosophers, and scientists have wondered at their shape, recorded them by hand or in photographs, and attempted to recreate hexagonal snowflakes.

Chronological list

BC to 1900

  • 150 BCE[1] or 135 BCE[2] - Han Ying (韓嬰) compiled the anthology Han shi waizhuan, which includes a passage that contrasts the pentagonal symmetry of flowers with the hexagonal symmetry of snow.[3] This is discussed further in the Imperial Readings of the Taiping Era.
  • 1250 - Albertus Magnus offers what is believed to be the oldest detailed description of snow.
  • 1555 - Olaus Magnus publishes the earliest snowflake diagrams in Historia de gentibus septentrionalibus.
  • 1611 - Johannes Kepler, in Strenaseu De Nive Sexangula, attempts to explain why snow crystals are hexagonal.[4]
  • 1637 - René Descartes' Discourse on the Method includes hexagonal diagrams and a study for the crystallization process and conditions for snowflakes.
  • 1660 - Erasmus Bartholinus, in his De figura nivis dissertatio, includes sketches of snow crystals.[5]
  • 1665 - Robert Hooke observes snow crystals under magnification in Micrographia.
  • 1675 - Friedrich Martens, a German physician, catalogues 24 types of snow crystal.[6][7]
  • 1681 - Donato Rossetti categorizes snow crystals in La figura della neve.
  • 1778 - Dutch theologian Johannes Florentius Martinet diagrams precise sketches of snow crystals.[8][9][10]
  • 1796 - Shiba Kōkan publishes sketches of ice crystals under a microscope.
  • 1820 - William Scoresby's An account of the Arteic Regions includes snow crystals by type.
  • 1832 - Doi Toshitsura describes and diagrams 86 types of snowflake (雪華図説).
  • 1837 - Suzuki Bokushi (鈴木牧之) publishes Hokuetsu Seppu.
  • 1840 - Doi Toshitsura expands his categories to include 97 types.
  • 1855 - James Glaisher publishes detailed sketches of snow crystals under a microscope.
  • 1865 - Frances E. Chickering publishes Cloud Crystals - a Snow-Flake Album.[11][12]
  • 1870 - Adolf Erik Nordenskiöld identifies "cryoconite holes."[13]
  • 1872 - John Tyndall publishes The Forms of Water in Clouds and Rivers, Ice and Glaciers.
  • 1891 - Friedrich Umlauft publishes Das Luftmeer.
  • 1893 - Richard Neuhauss photographs a snowflake under a microscope, titled Schneekrystalle.
  • 1894 - A. A. Sigson photographs snowflakes under a microscope.[14]

1901 to 2000

  • 1901 - Wilson Bentley publishes a series of photographs of individual snowflakes in the Monthly Weather Review.
  • 1903 - Svante Arrhenius describes crystallization process in Lehrbuch der Kosmischen Physik.
  • 1904 - Helge von Koch discover the fractal curves to be a mathematical description of snowflakes.
  • 1931 - Wilson Bentley and William Jackson Humphreys publish Snow Crystals
  • 1936 - Ukichiro Nakaya creates snow crystals and charts the relationship between temperature and water vapor saturation, later called the Nakaya Diagram.
  • 1938 - Ukichiro Nakaya publishes Snow ()
  • 1949 - Ukichiro Nakaya publishes Research of snow (雪の研究, Yuki no kenkyu)
  • 1952 - Marcel R. de Quervain et al. define ten major types of snow crystals, including hail and graupel in IUGG for the Swiss Federal Institute for Snow and Avalanche Research.
  • 1954 - Harvard University Press publishes Ukichiro Nakaya's Snow Crystals: Natural and Artificial.
  • 1960 - Teisaku Kobayashi (小林禎作, Kobayashi Teisaku), verifies and improves the Nakaya Diagram with the Kobayashi Diagram.[15]
  • 1962 - Cyoji Magono (孫野長治, Magono Cyōji) describes meteorological sorting of snow crystal types in clouds.[16]
  • 1979 - Toshio Kuroda (黒田登志雄, Kuroda Toshio) and Rolf Lacmann, of the Braunschweig University of Technology, publish Growth Mechanism of Ice from Vapour Phase and its Growth Forms.
  • 1983 August - Astronauts make snow crystals in orbit on the Space Shuttle Challenger during mission STS-8.[17]
  • 1988 - Norihiko Fukuta (福田矩彦, Fukuta Norihiko) et al. make artificial snow crystals in an updraft, confirming the Nakaya Diagram.[18]

2001 and after

  • 2002 - Kazuhiko Hiramatsu (平松和彦, Hiramatsu Kazuhiko) devises a simple snow crystal growth observatory apparatus using a PET bottle cooled by dry ice in an expanded polystyrene box.[19]
  • 2004 September - Akio Murai (村井昭夫, Murai Akio) invented the apparatus named lit. Murai-method Artificial Snow Crystal producer (Murai式人工雪結晶生成装置) which makes various shape of artificial snow crystals per pre-setting conditions meeting to Nakaya diagram by vapor generator and its cooling Peltier effect element.[20][21]
  • 2008 December - Yoshinori Furukawa (吉川義純, FurukawaYoshinori) demonstrates conditional snow crystal growth in space, in Solution Crystallization Observation Facility (SCOF) on the JEM (Kibō), remotely controlled from Tsukuba Space Center of JAXA.[22][23]

Notes and references

  1. 雪研究の歴史 [History of research of snow] (in Japanese). Retrieved 2009-07-18.
  2. "The History of the Science of snowflakes" (PDF). Dartmouth College. Retrieved 2009-07-18.
  3. The passage reads "凡草木花多五出,雪花獨六出,雪花曰霙,雪雲曰同雲".
  4. Kepler, Johannes (1966) [1611]. De nive sexangula [The Six-sided Snowflake]. Oxford: Clarendon Press. OCLC 974730.
  5. "De figura nivis dissertatio、Landmarks of science". Open Library. Retrieved 2009-10-20.
  6. The ruins of Smeerenburg – a fragmented past, there were already signs of decay when Friedrich Martens came to visit in 1671
  7. Martens Island is named for Friedrich Martens, a German physician who visited Spitsbergen in 1671
  8. Katechismus Der Natuur, Deel 2 (1778)
  9. Martinet, Johannes Florentius: Katechismus der natuur.
  10. Joannes Florentius Martinet
  11. "36. CHICKERING, Mrs. Francis E., Dorothy Sloan Books – Bulletin 9 (12/92)" (PDF). December 1992. Retrieved 2009-10-20.
  12. Cloud Crystals - a Snow-Flake Album, Author: Chickering, Frances E., Year: 1865 Archived 2011-07-15 at the Wayback Machine
  13. Warwick F. Vincent. "Cyanobacterial Dominance in the Polar Regions, Introduction" (PDF). Université Laval. Retrieved 2009-07-18.
  14. 1 Temperature, .... also A. A. Sigson in Rybinsk, Russia, had been making micro-photographs,....
  15. 油川英明 (Hideaki Aburakawa). 2.雪は「天からの手紙」か? [2. Is snow "The letter from the sky"?] (PDF) (in Japanese). The Meteorological Society of Japan, Hokkaido Branch. Archived from the original (PDF) on 2011-04-10. Retrieved 2009-07-18.
  16. Hideomi Nakamura (中村秀臣) and Osamu Abe (阿部修). "Density of the Dai1y New Snow Observed in Shinjō, Yamagata" (PDF) (in Japanese). National Research Institute for Earth Science and Disaster Prevention (NIED). Retrieved 2009-07-18.
  17. Asahi shimbun obtained experimental right and the idea contest picked up Japanese high school student's idea. Citation: 第8話「25年前に宇宙実験室で人工雪作り」 [Story No.8 Artificial snow in experimental chamber 25 years ago] (in Japanese). Hiratsuka, Kanagawa: KELK. Retrieved 2009-10-23.
  18. 樋口敬二 (Keizou Higuchi). 花島政人先生を偲んで [Think of the dead, Professor Masato Hanashima] (PDF) (in Japanese). Kaga, Ishikawa. p. 12. Retrieved 2009-07-18.
  19. Awarded by Meteorological Society of Japan in 2002
  20. "Murai式人工雪発生装置による雪結晶" [Lit. Snow Crystals by Murai-method Artificial Snow Crystal producer] (in Japanese). Archived from the original on 2010-01-25. Retrieved 2010-07-26.
  21. Japanese Utility model No.3106836
  22. "Crystal growth in space" (in Japanese). JAXA. Archived from the original on 2009-07-22.
  23. Approximately 100 times of experiments till March 2009, outcome would be good hint for ultra-pure silicon crystallizing, Yomiuri Shimbun 2 Dec. 2008 Evening edition page 14

Sources cited

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See also

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