Saturday, May 18, 2013

Solar storm of 1859: The Carrington Event

Because of Solar Flares (four of them out of the same sunspot) this week that were all X-Class (the most dangerous type) I thought I might share what happened here on Earth in 1859 which is sometimes called "The Carrington Event". Some of the reported events at that time were telegraph operators getting burned and paper being set on fire next to them. Telegraph messages being sent without being connected to any man made batteries or generation devices, Aurora Borealis bright enough all over the planet to read a newspaper at midnight etc.

And there was a more recent 1989 event which knocked out power in parts of Canada and parts of the North East United States for awhile.

 

Solar storm of 1859 - Wikipedia, the free encyclopedia

en.wikipedia.org/wiki/Solar_storm_of_1859
The solar storm of 1859, also known as the 1859 Solar Superstorm, or the Carrington Event, was a powerful geomagnetic solar storm in 1859 during solar cycle ...
Carrington Super FlareSimilar eventsSee alsoReferences

Solar storm of 1859

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Sunspots of September 1, 1859, as sketched by Richard Carrington A and B mark the initial positions of an intensely bright event, which moved over the course of 5 minutes to C and D before disappearing.
The solar storm of 1859, also known as the 1859 Solar Superstorm,[1] or the Carrington Event,[2] was a powerful geomagnetic solar storm in 1859 during solar cycle 10. A solar flare and/or coronal mass ejection produced a solar storm which hit Earth's magnetosphere and induced the largest known geomagnetic solar storm, which was observed and recorded by Richard C. Carrington.

Contents

Carrington Super Flare

From August 28, 1859, until September 2, numerous sunspots and solar flares were observed on the sun. Just before noon on September 1, the British astronomer Richard Carrington observed the largest flare,[3] which caused a major coronal mass ejection (CME) to travel directly toward Earth, taking 17.6 hours. Such a journey normally takes three to four days. This second CME moved so quickly because the first one had cleared the way of the ambient solar wind plasma.[3]
On August 29, 1859, aurora were observed in Sydney, Australia and also as far North as Queensland.[4] Telegraph services were also disrupted.
On September 1, 1859, Carrington and Richard Hodgson, another English amateur astronomer, independently made the first observations of a solar flare. Because of a simultaneous "crochet" observed in the Kew Observatory magnetometer record by Balfour Stewart and a geomagnetic storm observed the following day, Carrington suspected a solar-terrestrial connection. Worldwide reports on the effects of the geomagnetic storm of 1859 were compiled and published by Elias Loomis which support the observations of Carrington and Balfour Stewart.
On September 1–2, 1859, the largest recorded geomagnetic storm occurred. Aurorae were seen around the world, even over the Caribbean; those over the Rocky Mountains were so bright that their glow awoke gold miners, who began preparing breakfast because they thought it was morning.[3] People who happened to be awake in the northeastern US could read a newspaper by the aurora's light.[5] The aurora was visible from as far from the poles as Cuba and Hawaii.[6]
Telegraph systems all over Europe and North America failed, in some cases shocking telegraph operators.[7] Telegraph pylons threw sparks [8] Some telegraph systems continued to send and receive messages despite having been disconnected from their power supplies.[9]
On September 3, 1859, the Baltimore American and Commercial Advertiser reported, "Those who happened to be out late on Thursday night had an opportunity of witnessing another magnificent display of the auroral lights. The phenomenon was very similar to the display on Sunday night, though at times the light was, if possible, more brilliant, and the prismatic hues more varied and gorgeous. The light appeared to cover the whole firmament, apparently like a luminous cloud, through which the stars of the larger magnitude indistinctly shone. The light was greater than that of the moon at its full, but had an indescribable softness and delicacy that seemed to envelop everything upon which it rested. Between 12 and 1 o'clock, when the display was at its full brilliancy, the quiet streets of the city resting under this strange light, presented a beautiful as well as singular appearance."[10]

Similar events

Ice cores contain thin nitrate-rich layers that can be analyzed to reconstruct a history of past events before reliable observations; the data from Greenland ice cores was gathered by Kenneth G. McCracken[11] and others. These show evidence that events of this magnitude—as measured by high-energy proton radiation, not geomagnetic effect—occur approximately once per 500 years, with events at least one-fifth as large occurring several times per century.[12] Less severe storms have occurred in 1921 and 1960, when widespread radio disruption was reported. The March 1989 geomagnetic storm knocked out power across large sections of Quebec, Canada.

See also

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References

  1. ^ "Timeline: The 1859 Solar Superstorm". Scientific American (www.sciam.com). July 29, 2008. Retrieved February 16, 2011.
  2. ^ Philips, Tony (January 21, 2009). "Severe Space Weather--Social and Economic Impacts". NASA Science: Science News (science.nasa.gov). Retrieved February 16, 2011.
  3. ^ a b c Odenwald, Sten F.; Green, James L. (July 28, 2008). "Bracing the Satellite Infrastructure for a Solar Superstorm". Scientific American (www.sciam.com). Retrieved February 16, 2011.
  4. ^ "SOUTHERN AURORA.". The Moreton Bay Courier (Brisbane, Qld. : 1846 - 1861) (Brisbane, Qld.: National Library of Australia). 7 September 1859. p. 2. Retrieved 17 May 2013.
  5. ^ National Geographic, "What If the Biggest Solar Storm on Record Happened Today?," by Richard A. Lovett (March 2, 2011 - retrieved on September 5, 2011).
  6. ^ "Monster radiation burst from sun", BBC website, 14 May 2013. Retrieved 15 May 2013.
  7. ^ Committee on the Societal and Economic Impacts of Severe Space Weather Events: A Workshop, National Research Council (2008). Severe Space Weather Events--Understanding Societal and Economic Impacts: A Workshop Report. National Academies Press. p. 13. ISBN 0-309-12769-6.
  8. ^ Odenwald, Sten F. (2002). The 23rd Cycle. Columbia University Press. p. 28. ISBN 0-231-12079-6.
  9. ^ Carlowicz, Michael J.; Lopez, Ramon E. (2002). Storms from the Sun: The Emerging Science of Space Weather. National Academies Press. p. 58. ISBN 0-309-07642-0.
  10. ^ "The Aurora Borealis". Baltimore American and Commercial Advertiser (Baltimore, Maryland). September 3, 1859. p. 2; Column 2. Retrieved February 16, 2011.
  11. ^ "How do you determine the effects of a solar flare that took place 150 years ago?". Stuart Clarks Universe. Retrieved May 23, 2012.
  12. ^ McCracken, K. G.; Dreschhoff, G. A. M.; Zeller, E. J.; Smart, D. F.; Shea, M. A. (2001). "Solar cosmic ray events for the period 1561–1994 1. Identification in polar ice, 1561–1950". Journal of Geophysical Research 106 (A10): 21,585–21,598. Bibcode:2001JGR...10621585M. doi:10.1029/2000JA000237. Retrieved February 16, 2011.

Further reading

External links

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Solar storm of 1859 - Wikipedia, the free encyclopedia

 
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