Iceland spar

Iceland spar, possibly the Icelandic medieval sun stone used to locate the sun in the sky when obstructed from view.[1]

Iceland spar, formerly known as Iceland crystal (Icelandic: silfurberg; lit. silver-rock), is a transparent variety of calcite, or crystallized calcium carbonate, originally brought from Iceland, and used in demonstrating the polarization of light (see polarimetry).[2][3] It occurs in large readily cleavable crystals, easily divisible into rhombs, and is remarkable for its double refraction.[4][5]

Historically, the double-refraction property of this crystal was important to understanding the nature of light as a wave. This was studied at length by Christiaan Huygens[6] and Isaac Newton.[7] Sir George Stokes also studied the phenomenon.[8] Its complete explanation in terms of light polarization was published by Augustin-Jean Fresnel in the 1820s.[9]

Mines producing Iceland spar include many mines producing related calcite and aragonite as well as those famously in Iceland,[10] productively in the greater Sonoran desert region as in Santa Eulalia, Chihuahua, Mexico[11] and New Mexico, United States,[12] as well as in the People's Republic of China.[13]

Viking "sunstone"

Main article: Sunstone (medieval)

It has been speculated that the sunstone (Old Norse: sólarsteinn, a different mineral from the gem-quality sunstone) mentioned in medieval Icelandic texts was Iceland spar, and that Vikings used its light-polarizing property to tell the direction of the sun on cloudy days for navigational purposes.[1][14] The polarization of sunlight in the Arctic can be detected,[15] and the direction of the sun identified to within a few degrees in both cloudy and twilight conditions using the sunstone and the naked eye.[16] The process involves moving the stone across the visual field to reveal a yellow entoptic pattern on the fovea of the eye, probably Haidinger's brush. The recovery of an Iceland spar sunstone from the Elizabethan ship Alderney, which sank in 1592, suggests that this navigational technology may have persisted after the invention of the magnetic compass.[17]

Nicol prism

William Nicol (1770–1851) invented the first polarizing prism, using Iceland spar to create his Nicol prism.[18]

References

  1. 1 2 The Viking Sunstone, from Polarization.net. Retrieved February 8, 2007.
  2. This article incorporates text from a work in the public domain:  Porter, Noah, ed. (1913). "Webster's entry needed". Webster's Dictionary. Springfield, Massachusetts: C. & G. Merriam Co.
  3. "Iceland spar". Oxford English Dictionary (3rd ed.). Oxford University Press. September 2005. (Subscription or UK public library membership required.)
  4. This article incorporates text from a work in the public domain:  Webster, Noah (1828). "Webster's entry needed". Webster's Dictionary. Springfield, Massachusetts: C. & G. Merriam Co.
  5. Miers, Henry A., Mineralogy: an introduction to the scientific study of minerals. Nabu Press. ISBN 1-177-85127-X Chap. 6, p. 128.
  6. C. Huygens, Treatise on Light (Leiden: Van der Aa, 1690), translated by Silvanus P. Thompson, London: Macmillan, 1912, archive.org/details/treatiseonlight031310mbp; Project Gutenberg edition, 2005, gutenberg.org/ebooks/14725; Errata, 2016.
  7.  This article incorporates text from a publication now in the public domain: Chambers, Ephraim, ed. (1728). "article name needed". Cyclopædia, or an Universal Dictionary of Arts and Sciences (first ed.). James and John Knapton, et al.
  8. Larmor, Joseph 2010. Retrieved January 2, 2011. Memoir and scientific correspondence of the late Sir George Gabriel Stokes, bart., selected and arranged by Joseph Larmor. Nabu Press. ISBN 1-177-14275-9 p. 269.
  9. Whittaker, E. T., A History of the Theories of Aether and Electricity. Dublin University Press, 1910.
  10. Russell, Daniel E . 17 February 2008. Retrieved December 31, 2010. "Helgustadir Iceland Spar Mine" mindat.org
  11. Retrieved January 2, 2011. "Calcite"Granite Gap "Several variety names exist for calcite. Iceland Spar is an ice-clear variety that demonstrates the effect of double refraction or birefringence ... Young mountain ranges in Mexico and South America also host fine localities for calcite. They include Chihuahua, Chihuahua; the Santa Eulalia Dist., Chihuahua; Mapimí, Durango; Guanajuato, Guanajuato; and Charcas, San Luis Potosí; all Mexico"
  12. Kelley, Vincent C. 1940. Retrieved December 31, 2010. "Iceland Spar in Mew Mexico". American Mineralogist, Volume 25, pp. 357-367
  13. WANG Jing-teng, CHEN Hen-shui, YANG En-lin,WU Bo. 2009. Retrieved January 3, 2011. "Geological Characteristics of Iceland Spar Mineral Deposit of Mashan District in Guizhou". China National Knowledge Infrastructure, P619.2 CNKI:SUN:KJQB.0.2009-33-061
  14. Karlsen, Leif K. 2003. Secrets of the Viking Navigators. One Earth Press. ISBN 978-0-9721515-0-4, 220 pp.
  15. Hegedüs, Ramón, Åkesson, Susanne; Wehner, Rüdiger and Horváth, Gábor. 2007. "Could Vikings have navigated under foggy and cloudy conditions by skylight polarization? On the atmospheric optical prerequisites of polarimetric Viking navigation under foggy and cloudy skies". Proc. R. Soc. A 463 (2080): 1081–1095. doi:10.1098/rspa.2007.1811. ISSN 0962-8452.
  16. Ropars, G. et al., 2011. A depolarizer as a possible precise sunstone for Viking navigation by polarized skylight. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Science. Available at: http://rspa.royalsocietypublishing.org/content/early/2011/10/28/rspa.2011.0369.abstract [Accessed December 5, 2011].
  17. First evidence of Viking-like 'sunstone' found. Discovery.com. Accessed 11 March 2013.
  18. Greenslade, Thomas B., Jr. "Nicol Prism". Kenyon College. Retrieved 23 January 2014.
This article is issued from Wikipedia - version of the 11/14/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.