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Kristian Birkeland

May 04, 2023

Kristian Olaf Bernhard Birkeland (13 December 1867 – 15 June 1917) was a Norwegian scientist. He is best remembered for his theories of atmospheric electric currents that elucidated the nature of the aurora borealis. In order to fund his research on the aurorae, he invented the electromagnetic cannon and the Birkeland–Eyde process of fixing nitrogen from the air. Birkeland was nominated for the Nobel Prize seven times.[1][2]

Kristian Olaf Bernhard Birkeland
Portrait by Asta Nørregaard, 1900
Born(1867-12-13)13 December 1867
Christiania, United Kingdoms of Sweden and Norway
Died15 June 1917(1917-06-15) (aged 49)
Tokyo, Japan
NationalityNorwegian
CitizenshipKingdom of Norway (1867–1917)
Known forBirkeland current
Birkeland–Eyde process
Research on Aurora borealis
Coilgun
Solar wind
Substorm
SpouseIda Charlotte Hammer
Scientific career
FieldsPhysics
InstitutionsThe Royal Frederick University

Life and death

Birkeland was born in Christiania (Oslo today) to Reinart Birkeland and Ingeborg (née Ege)[3] and wrote his first scientific paper at the age of 18. Birkeland married Ida Charlotte Hammer in May 1905. They had no children and, due to Birkeland's preoccupation with his work, they divorced in 1911.[4]

Suffering from severe paranoia due to his use of barbital as a sleeping aid, he died under mysterious circumstances in his room in the Hotel Seiyoken in Tokyo while visiting colleagues at the University of Tokyo. A post-mortem revealed that Birkeland had taken 10 g of barbital the night he died, instead of the 0.5 g recommended. The time of death was estimated at 3am on 15 June 1917.[1] Some authors have claimed that he committed suicide.[5] "On the nightstand lay a revolver".[6]

Research

 
Kristian Birkeland

Birkeland organized several expeditions to Norway's high-latitude regions where he established a network of observatories under the auroral regions to collect magnetic field data. The results of the Norwegian Polar Expedition conducted from 1899 to 1900 contained the first determination of the global pattern of electric currents in the polar region from ground magnetic field measurements. The discovery of X-rays inspired Birkeland to develop vacuum chambers to study the influence of magnets on cathode rays. Birkeland noticed that an electron beam directed toward a terrella, a model of the Earth consisting of a spherical magnet, was guided toward the magnetic poles and produced rings of light around the poles and concluded that the aurora could be produced in a similar way. He developed a theory in which energetic electrons were ejected from sunspots on the solar surface, directed to the Earth, and guided to the Earth's polar regions by the geomagnetic field where they produced the visible aurora. This is essentially the theory of the aurora today.

Birkeland proposed in 1908 in his book The Norwegian Aurora Polaris Expedition 1902–1903[7] that polar electric currents, today referred to as auroral electrojets, were connected to a system of currents that flowed along geomagnetic field lines into and away from the polar region. Such field-aligned currents are known today as Birkeland currents in his honour. He provided a diagram of field-aligned currents in the book, and this diagram was reproduced on the back of the Norwegian 200 kroner 7th series banknote in the lower right corner, and his terrella experiment is shown on the front at the left with a portrait of Birkeland on the right. The book on the 1902–1903 expedition contains chapters on magnetic storms on the Earth and their relationship to the Sun, the origin of the Sun itself, Halley's comet, and the rings of Saturn.

Birkeland's vision of what are now known as Birkeland currents became the source of a controversy that continued for over half a century, because their existence could not be confirmed from ground-based measurements alone. His theory was disputed and ridiculed at the time as a fringe theory by mainstream scientists,[1][8] most notoriously by the eminent British geophysicist and mathematician Sydney Chapman who argued the mainstream view that currents could not cross the vacuum of space and therefore the currents had to be generated by the Earth. Birkeland's theory of the aurora continued to be dismissed by mainstream astrophysicists after his death in 1917. It was notably championed by the Swedish plasma scientist Hannes Alfvén,[9] but Alfvén's work in turn was also disputed by Chapman.[10]

Proof of Birkeland's theory of the aurora only came in 1967 after a probe was sent into space. The crucial results were obtained from U.S. Navy satellite 1963-38C, launched in 1963 and carrying a magnetometer above the ionosphere.[11] Magnetic disturbances were observed on nearly every pass over the high-latitude regions of the Earth. These were originally interpreted as hydromagnetic waves, but on later analysis it was realized that they were due to field-aligned or Birkeland currents.

The scale of Birkeland's research enterprises was such that funding became an overwhelming obstacle. Recognizing that technological invention could bring wealth, he developed an electromagnetic cannon and, with some investors, formed a firearms company. The coil-gun worked, except the high muzzle velocities he predicted (600 m/s) were not produced. The most he could get from his largest machine was 100 m/s, corresponding to a disappointing projectile range of only 1 km. So he renamed the device an aerial torpedo and arranged a demonstration with the express aim of selling the company. At the demonstration, one of the coils shorted and produced a sensational inductive arc complete with noise, flame, and smoke. This was the first failure of any of the launchers that Birkeland had built. It could easily have been repaired and another demonstration organized.

However, fate intervened in the form of an engineer named Sam Eyde. At a dinner party only one week later, Eyde told Birkeland that there was an industrial need for the biggest flash of lightning that can be brought down to Earth in order to make artificial fertilizer. Birkeland's reply was, "I have it!" There were no more attempts to sell the firearms company, and he worked with Eyde only long enough to build a plasma arc device for the nitrogen fixation process. The pair worked to develop the prototype furnace into a design that was economically viable for large-scale manufacture. The resulting company, Norsk Hydro, hugely enriched Norway, and Birkeland then enjoyed adequate funding for research, his only real interest.

The Birkeland–Eyde process is relatively inefficient in terms of energy consumption. Therefore, in the 1910s and 1920s, it was gradually replaced in Norway by a combination of the Haber process and the Ostwald process.

In 1913, Birkeland may have been the first to predict that plasma was ubiquitous in space. He wrote: "It seems to be a natural consequence of our points of view to assume that the whole of space is filled with electrons and flying electric ions of all kinds. We have assumed that each stellar system in evolutions throws off electric corpuscles into space. It does not seem unreasonable therefore to think that the greater part of the material masses in the universe is found, not in the solar systems or nebulae, but in 'empty' space."[7]

In 1916, Birkeland was probably the first person to successfully predict that the solar wind behaves as do all charged particles in an electric field: "From a physical point of view it is most probable that solar rays are neither exclusively negative nor positive rays, but of both kinds".[12][13] In other words, the solar wind consists of both negative electrons and positive ions.

 
Kristian Birkeland and his terrella experiment

The first complete map of the statistical location of Birkeland currents in the Earth's polar region was developed in 1974 by A.J. Zmuda and J.C. Armstrong and refined in 1976 by T. Iijima[14] and T.A. Potemra[15][16][17]

As a scholar with wide interests, Birkeland joined the control commission of NSFPS (Norwegian Society For Psychic Research). The 299 members of the society included, by 1922, people like prime minister Gunnar Knudsen, as well as a wide range of doctors, professors and shipowners. The society arranged circles experimenting with dancing tables and automatic writing, but attracted more attention arranging controlled experiments with invited foreign mediums. In 1912 it was the alleged medium Etta Wriedt from Detroit, famous for her "spirit trumpet", who was exposed as a fraud. Mrs Wriedt's "trumpet" should have been speaking with the "spirit voice" of, among others, Hypatia,[18] but in Norway the "trumpet blows" were exposed as explosions produced by potassium and water. Professor Birkeland exclaimed on that occasion, "I'm supposedly against all witch burnings, but a teeny weeny one in honour of Mrs Wriedt would not have been in the way."[19]

Legacy

Birkeland's theory of the aurora was eventually confirmed and accepted as correct.

An example of one of his experiments is depicted on the left front of a previous version of the Norwegian 200 kroner note; it shows a magnetized terrella, simulating the Earth, suspended in an evacuated chamber. Birkeland's face appears a second time in a watermark in the blank space above the drawing of the terrella, and his rudimentary magnetosphere appears on the back, but is only visible under ultraviolet light. The ring encircling the magnetic pole depicted on the back of the bank note is similar to the patterns predicted by Birkeland and shown more recently by satellites. His drawing of what became known as Birkeland currents from his book, The Norwegian Aurora Polaris Expedition 1902–1903,[7] is shown on the back of the banknote at the right.

In 2017, Yara International ordered the Yara Birkeland, which will be the world's first autonomous ship and is named after Birkeland. It will enter service in 2018 and be fully autonomous by 2020.[20]

Quotes

It seems to be a natural consequence of our points of view to assume that the whole of space is filled with electrons and flying electric ions of all kinds. — Kristian Birkeland 1913[7]: 720 
A very few lonely pioneers make their way to high places never before visited . . . they create the living conditions of mankind and the majority are living on their work. — Kristian Birkeland[1]: 285 

References

  1. ^ a b c d Lucy Jago (2001). The Northern Lights. New York: Alfred A. Knopf. ISBN 978-0-375-40980-6.
  2. ^ Potemra, T. A. (1997). "The contributions of Kristian Birkeland to space physics". Geomagnetism and Aeronomy with Special Historical Case Studies. IAGA Newsletters. 29/1997: 107. Bibcode:1997gash.conf..107P.
  3. ^ Hockey, Thomas (2009). The Biographical Encyclopedia of Astronomers. Springer Publishing. ISBN 978-0-387-31022-0. Retrieved 22 August 2012.
  4. ^ Professor Alf Egeland. "Olav Christian Bernhard Birkeland". Research Group for Plasma and Space Physics, University of Oslo.
  5. ^ Murdin, P. (2001). "Birkeland, Kristian (1868–1917)". In Murdin, P. (ed.). The Encyclopedia of Astronomy and Astrophysics. Encyclopedia of Astronomy and Astrophysics. p. 5443. Bibcode:2001eaa..bookE5443.. doi:10.1888/0333750888/5443. ISBN 978-0-333-75088-9.
  6. ^ John Gustavsen (1 February 2016). "Haldde". Klassekampen. p. 32.
  7. ^ a b c d Birkeland, Kristian (1908). The Norwegian Aurora Polaris Expedition 1902–1903. New York and Christiania (now Oslo): H. Aschehoug & Co. out-of-print, full text online
  8. ^ Schuster, Arthur (March 1912). "The Origin of Magnetic Storms". Proceedings of the Royal Society A. 85 (575): 44–50. Bibcode:1911RSPSA..85...44S. doi:10.1098/rspa.1911.0019.
  9. ^ Alfvén, Hannes (1939), "Theory of Magnetic Storms and of the Aurorae", K. Sven. Vetenskapsakad. Handl., ser. 3, vol. 18, no. 3, p. 1, 1939. Reprinted in part, with comments by A. J. Dessler and J. Wilcox, in Eos, Trans. Am. Geophys. Un., vol. 51, p. 180, 1970.
  10. ^ Chapman, S. and Bartels, J. (1940) Geomagnetism, Vols. 1 and 2, Clarendon Press, Oxford.
  11. ^ Peratt, A. L.; Peter, W.; Snell, C. M. (1990). "3-dimensional particle-in-cell simulations of spiral galaxies". Proceedings of the 140th Symposium of IAU, 19–23 June 1989. Galactic and Intergalactic Magnetic Fields. Vol. 140. pp. 143–150. Bibcode:1990IAUS..140..143P. doi:10.1007/978-94-009-0569-6_43. ISBN 978-0-7923-0705-1.
  12. ^ "Are the Solar Corpuscular Rays that penetrate the Earth's Atmosphere Negative or Positive Rays?". Videnskapsselskapets Skrifter, I Mat – Naturv. Klasse No.1. Christiania, 1916.
  13. ^ Egeland, Alv; Burke, William J. (2005). Kristian Birkeland: The First Space Scientist. Springer, Dordrecht, The Netherlands. p. 80. ISBN 9781402032943. Are the Solar Corpuscular Rays that penetrate the Earth's Atmosphere Negative or Positive Rays.
  14. ^ Sato, T.; Iijima, T. (1979). "Primary sources of large-scale Birkeland currents". Space Science Reviews. 24 (3): 347–366. Bibcode:1979SSRv...24..347S. doi:10.1007/BF00212423. S2CID 119848803.
  15. ^ Potemra, T. A. (1978). "Observation of Birkeland currents with the TRIAD satellite". Astrophysics and Space Science. 58 (1): 207–226. Bibcode:1978Ap&SS..58..207P. doi:10.1007/BF00645387. S2CID 119690162.
  16. ^ Potemra, T. A. (1985). "Field-aligned (Birkeland) currents". Space Science Reviews. 42 (3–4): 295–311. Bibcode:1985SSRv...42..295P. doi:10.1007/BF00214990. S2CID 120382629.
  17. ^ Potemra, T. A. (1988). "Birkeland currents in the earth's magnetosphere". Astrophysics and Space Science. 144 (1–2): 155–169. Bibcode:1988Ap&SS.144..155P. doi:10.1007/BF00793179. S2CID 122300686.
  18. ^ King, John S. (1920) . New York, The James A. McCann Company
  19. ^ Emberland, Terje and Pettersen, Arnfinn (2006) "Religion for en ny tid", pp. 257–8 in Åpent sinn eller høl i hue?, Humanist, Oslo, ISBN 82-92622-16-0
  20. ^ "The first ever zero emission, autonomous ship". Yara International. 9 May 2017. Retrieved 25 July 2017.

Further reading

Books

  • Full text of The Norwegian Aurora Polaris Expedition 1902–1903 (158 MB)
  • Kristian Birkeland, The First Space Scientist(2005) ISBN 1-4020-3293-5 by Egeland, Alv, Burke, William J.
  • Lucy Jago (2002). The Northern Lights. London: Penguin Books. ISBN 0-14-029015-X ISBN 9780140290158

Articles

  • More articles from the NASA Astrophysics Data System
  • Egeland, A.; Leer, E. (1986). "Professor Kr. Birkeland: His Life and Work". IEEE Transactions on Plasma Science. 14 (6): 666–677. Bibcode:1986ITPS...14..666E. doi:10.1109/TPS.1986.4316617. ISSN 0093-3813. S2CID 24859758.

External links

 
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Kristian Birkeland (category)

May 04, 2023
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translated from the existing Norwegian Wikipedia article at no Kristian Birkeland see its history for attribution You should also add the template Translated no Kristian Birkeland to the talk page For more guidance see Wikipedia Translation Kristian Olaf Bernhard Birkeland 13 December 1867 15 June 1917 was a Norwegian scientist He is best remembered for his theories of atmospheric electric currents that elucidated the nature of the aurora borealis In order to fund his research on the aurorae he invented the electromagnetic cannon and the Birkeland Eyde process of fixing nitrogen from the air Birkeland was nominated for the Nobel Prize seven times 1 2 Kristian Olaf Bernhard BirkelandPortrait by Asta Norregaard 1900Born 1867 12 13 13 December 1867Christiania United Kingdoms of Sweden and NorwayDied15 June 1917 1917 06 15 aged 49 Tokyo JapanNationalityNorwegianCitizenshipKingdom of Norway 1867 1917 Known forBirkeland currentBirkeland Eyde processResearch on Aurora borealisCoilgunSolar windSubstormSpouseIda Charlotte HammerScientific careerFieldsPhysicsInstitutionsThe Royal Frederick University Contents 1 Life and death 2 Research 3 Legacy 4 Quotes 5 References 6 Further reading 6 1 Books 6 2 Articles 7 External linksLife and death EditBirkeland was born in Christiania Oslo today to Reinart Birkeland and Ingeborg nee Ege 3 and wrote his first scientific paper at the age of 18 Birkeland married Ida Charlotte Hammer in May 1905 They had no children and due to Birkeland s preoccupation with his work they divorced in 1911 4 Suffering from severe paranoia due to his use of barbital as a sleeping aid he died under mysterious circumstances in his room in the Hotel Seiyoken in Tokyo while visiting colleagues at the University of Tokyo A post mortem revealed that Birkeland had taken 10 g of barbital the night he died instead of the 0 5 g recommended The time of death was estimated at 3am on 15 June 1917 1 Some authors have claimed that he committed suicide 5 On the nightstand lay a revolver 6 Research Edit Kristian Birkeland Birkeland organized several expeditions to Norway s high latitude regions where he established a network of observatories under the auroral regions to collect magnetic field data The results of the Norwegian Polar Expedition conducted from 1899 to 1900 contained the first determination of the global pattern of electric currents in the polar region from ground magnetic field measurements The discovery of X rays inspired Birkeland to develop vacuum chambers to study the influence of magnets on cathode rays Birkeland noticed that an electron beam directed toward a terrella a model of the Earth consisting of a spherical magnet was guided toward the magnetic poles and produced rings of light around the poles and concluded that the aurora could be produced in a similar way He developed a theory in which energetic electrons were ejected from sunspots on the solar surface directed to the Earth and guided to the Earth s polar regions by the geomagnetic field where they produced the visible aurora This is essentially the theory of the aurora today Birkeland proposed in 1908 in his book The Norwegian Aurora Polaris Expedition 1902 1903 7 that polar electric currents today referred to as auroral electrojets were connected to a system of currents that flowed along geomagnetic field lines into and away from the polar region Such field aligned currents are known today as Birkeland currents in his honour He provided a diagram of field aligned currents in the book and this diagram was reproduced on the back of the Norwegian 200 kroner 7th series banknote in the lower right corner and his terrella experiment is shown on the front at the left with a portrait of Birkeland on the right The book on the 1902 1903 expedition contains chapters on magnetic storms on the Earth and their relationship to the Sun the origin of the Sun itself Halley s comet and the rings of Saturn Birkeland s vision of what are now known as Birkeland currents became the source of a controversy that continued for over half a century because their existence could not be confirmed from ground based measurements alone His theory was disputed and ridiculed at the time as a fringe theory by mainstream scientists 1 8 most notoriously by the eminent British geophysicist and mathematician Sydney Chapman who argued the mainstream view that currents could not cross the vacuum of space and therefore the currents had to be generated by the Earth Birkeland s theory of the aurora continued to be dismissed by mainstream astrophysicists after his death in 1917 It was notably championed by the Swedish plasma scientist Hannes Alfven 9 but Alfven s work in turn was also disputed by Chapman 10 Proof of Birkeland s theory of the aurora only came in 1967 after a probe was sent into space The crucial results were obtained from U S Navy satellite 1963 38C launched in 1963 and carrying a magnetometer above the ionosphere 11 Magnetic disturbances were observed on nearly every pass over the high latitude regions of the Earth These were originally interpreted as hydromagnetic waves but on later analysis it was realized that they were due to field aligned or Birkeland currents The scale of Birkeland s research enterprises was such that funding became an overwhelming obstacle Recognizing that technological invention could bring wealth he developed an electromagnetic cannon and with some investors formed a firearms company The coil gun worked except the high muzzle velocities he predicted 600 m s were not produced The most he could get from his largest machine was 100 m s corresponding to a disappointing projectile range of only 1 km So he renamed the device an aerial torpedo and arranged a demonstration with the express aim of selling the company At the demonstration one of the coils shorted and produced a sensational inductive arc complete with noise flame and smoke This was the first failure of any of the launchers that Birkeland had built It could easily have been repaired and another demonstration organized However fate intervened in the form of an engineer named Sam Eyde At a dinner party only one week later Eyde told Birkeland that there was an industrial need for the biggest flash of lightning that can be brought down to Earth in order to make artificial fertilizer Birkeland s reply was I have it There were no more attempts to sell the firearms company and he worked with Eyde only long enough to build a plasma arc device for the nitrogen fixation process The pair worked to develop the prototype furnace into a design that was economically viable for large scale manufacture The resulting company Norsk Hydro hugely enriched Norway and Birkeland then enjoyed adequate funding for research his only real interest The Birkeland Eyde process is relatively inefficient in terms of energy consumption Therefore in the 1910s and 1920s it was gradually replaced in Norway by a combination of the Haber process and the Ostwald process In 1913 Birkeland may have been the first to predict that plasma was ubiquitous in space He wrote It seems to be a natural consequence of our points of view to assume that the whole of space is filled with electrons and flying electric ions of all kinds We have assumed that each stellar system in evolutions throws off electric corpuscles into space It does not seem unreasonable therefore to think that the greater part of the material masses in the universe is found not in the solar systems or nebulae but in empty space 7 In 1916 Birkeland was probably the first person to successfully predict that the solar wind behaves as do all charged particles in an electric field From a physical point of view it is most probable that solar rays are neither exclusively negative nor positive rays but of both kinds 12 13 In other words the solar wind consists of both negative electrons and positive ions Kristian Birkeland and his terrella experiment The first complete map of the statistical location of Birkeland currents in the Earth s polar region was developed in 1974 by A J Zmuda and J C Armstrong and refined in 1976 by T Iijima 14 and T A Potemra 15 16 17 As a scholar with wide interests Birkeland joined the control commission of NSFPS Norwegian Society For Psychic Research The 299 members of the society included by 1922 people like prime minister Gunnar Knudsen as well as a wide range of doctors professors and shipowners The society arranged circles experimenting with dancing tables and automatic writing but attracted more attention arranging controlled experiments with invited foreign mediums In 1912 it was the alleged medium Etta Wriedt from Detroit famous for her spirit trumpet who was exposed as a fraud Mrs Wriedt s trumpet should have been speaking with the spirit voice of among others Hypatia 18 but in Norway the trumpet blows were exposed as explosions produced by potassium and water Professor Birkeland exclaimed on that occasion I m supposedly against all witch burnings but a teeny weeny one in honour of Mrs Wriedt would not have been in the way 19 Legacy EditBirkeland s theory of the aurora was eventually confirmed and accepted as correct An example of one of his experiments is depicted on the left front of a previous version of the Norwegian 200 kroner note it shows a magnetized terrella simulating the Earth suspended in an evacuated chamber Birkeland s face appears a second time in a watermark in the blank space above the drawing of the terrella and his rudimentary magnetosphere appears on the back but is only visible under ultraviolet light The ring encircling the magnetic pole depicted on the back of the bank note is similar to the patterns predicted by Birkeland and shown more recently by satellites His drawing of what became known as Birkeland currents from his book The Norwegian Aurora Polaris Expedition 1902 1903 7 is shown on the back of the banknote at the right In 2017 Yara International ordered the Yara Birkeland which will be the world s first autonomous ship and is named after Birkeland It will enter service in 2018 and be fully autonomous by 2020 20 Quotes EditIt seems to be a natural consequence of our points of view to assume that the whole of space is filled with electrons and flying electric ions of all kinds Kristian Birkeland 1913 7 720 A very few lonely pioneers make their way to high places never before visited they create the living conditions of mankind and the majority are living on their work Kristian Birkeland 1 285 References Edit a b c d Lucy Jago 2001 The Northern Lights New York Alfred A Knopf ISBN 978 0 375 40980 6 Potemra T A 1997 The contributions of Kristian Birkeland to space physics Geomagnetism and Aeronomy with Special Historical Case Studies IAGA Newsletters 29 1997 107 Bibcode 1997gash conf 107P Hockey Thomas 2009 The Biographical Encyclopedia of Astronomers Springer Publishing ISBN 978 0 387 31022 0 Retrieved 22 August 2012 Professor Alf Egeland Olav Christian Bernhard Birkeland Research Group for Plasma and Space Physics University of Oslo Murdin P 2001 Birkeland Kristian 1868 1917 In Murdin P ed The Encyclopedia of Astronomy and Astrophysics Encyclopedia of Astronomy and Astrophysics p 5443 Bibcode 2001eaa bookE5443 doi 10 1888 0333750888 5443 ISBN 978 0 333 75088 9 John Gustavsen 1 February 2016 Haldde Klassekampen p 32 a b c d Birkeland Kristian 1908 The Norwegian Aurora Polaris Expedition 1902 1903 New York and Christiania now Oslo H Aschehoug amp Co out of print full text online Schuster Arthur March 1912 The Origin of Magnetic Storms Proceedings of the Royal Society A 85 575 44 50 Bibcode 1911RSPSA 85 44S doi 10 1098 rspa 1911 0019 Alfven Hannes 1939 Theory of Magnetic Storms and of the Aurorae K Sven Vetenskapsakad Handl ser 3 vol 18 no 3 p 1 1939 Reprinted in part with comments by A J Dessler and J Wilcox in Eos Trans Am Geophys Un vol 51 p 180 1970 Chapman S and Bartels J 1940 Geomagnetism Vols 1 and 2 Clarendon Press Oxford Peratt A L Peter W Snell C M 1990 3 dimensional particle in cell simulations of spiral galaxies Proceedings of the 140th Symposium of IAU 19 23 June 1989 Galactic and Intergalactic Magnetic Fields Vol 140 pp 143 150 Bibcode 1990IAUS 140 143P doi 10 1007 978 94 009 0569 6 43 ISBN 978 0 7923 0705 1 Are the Solar Corpuscular Rays that penetrate the Earth s Atmosphere Negative or Positive Rays Videnskapsselskapets Skrifter I Mat Naturv Klasse No 1 Christiania 1916 Egeland Alv Burke William J 2005 Kristian Birkeland The First Space Scientist Springer Dordrecht The Netherlands p 80 ISBN 9781402032943 Are the Solar Corpuscular Rays that penetrate the Earth s Atmosphere Negative or Positive Rays Sato T Iijima T 1979 Primary sources of large scale Birkeland currents Space Science Reviews 24 3 347 366 Bibcode 1979SSRv 24 347S doi 10 1007 BF00212423 S2CID 119848803 Potemra T A 1978 Observation of Birkeland currents with the TRIAD satellite Astrophysics and Space Science 58 1 207 226 Bibcode 1978Ap amp SS 58 207P doi 10 1007 BF00645387 S2CID 119690162 Potemra T A 1985 Field aligned Birkeland currents Space Science Reviews 42 3 4 295 311 Bibcode 1985SSRv 42 295P doi 10 1007 BF00214990 S2CID 120382629 Potemra T A 1988 Birkeland currents in the earth s magnetosphere Astrophysics and Space Science 144 1 2 155 169 Bibcode 1988Ap amp SS 144 155P doi 10 1007 BF00793179 S2CID 122300686 King John S 1920 Dawn of the Awakened Mind New York The James A McCann Company Emberland Terje and Pettersen Arnfinn 2006 Religion for en ny tid pp 257 8 in Apent sinn eller hol i hue Humanist Oslo ISBN 82 92622 16 0 The first ever zero emission autonomous ship Yara International 9 May 2017 Retrieved 25 July 2017 Further reading EditBooks Edit Full text of The Norwegian Aurora Polaris Expedition 1902 1903 158 MB Kristian Birkeland The First Space Scientist 2005 ISBN 1 4020 3293 5 by Egeland Alv Burke William J Lucy Jago 2002 The Northern Lights London Penguin Books ISBN 0 14 029015 X ISBN 9780140290158Articles Edit More articles from the NASA Astrophysics Data System Egeland A Leer E 1986 Professor Kr Birkeland His Life and Work IEEE Transactions on Plasma Science 14 6 666 677 Bibcode 1986ITPS 14 666E doi 10 1109 TPS 1986 4316617 ISSN 0093 3813 S2CID 24859758 External links Edit Wikimedia Commons has media related to Kristian Birkeland category Retrieved from https en wikipedia org w index php title Kristian Birkeland amp oldid 1139772463, wikipedia, wiki, book, books, library,

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