|Hannes Olof Gösta Alfvén|
30 May 1908|
|Died||2 April 1995
|Fields||Electrical engineering and Plasma physics|
|Institutions||University of Uppsala
Royal Institute of Technology
University of California, San Diego
University of Maryland, College Park
University of Southern California
|Alma mater||University of Uppsala|
|Doctoral advisor||Manne Siegbahn
Carl Wilhelm Oseen
|Doctoral students||Carl-Gunne Fälthammar
|Notable awards||Nobel Prize in Physics (1970)|
Hannes Olof Gösta Alfvén (Swedish: [alˈveːn]; 30 May 1908 – 2 April 1995) was a Swedish electrical engineer, plasma physicist and winner of the 1970 Nobel Prize in Physics for his work on magnetohydrodynamics (MHD). He described the class of MHD waves now known as Alfvén waves. He was originally trained as an electrical power engineer and later moved to research and teaching in the fields of plasma physics and electrical engineering. Alfvén made many contributions to plasma physics, including theories describing the behavior of aurorae, the Van Allen radiation belts, the effect of magnetic storms on the Earth's magnetic field, the terrestrial magnetosphere, and the dynamics of plasmas in the Milky Way galaxy.
In 1934, Alfvén taught physics at both the University of Uppsala and the Nobel Institute for Physics (later renamed the Manne Siegbahn Institute of Physics) in Stockholm, Sweden. In 1940, he became professor of electromagnetic theory and electrical measurements at the Royal Institute of Technology in Stockholm. In 1945, he acquired the nonappointive position of Chair of Electronics. His title was changed to Chair of Plasma Physics in 1963. In 1954-1955, Alfvén was a Fulbright Scholar at the University of Maryland, College Park. In 1967, after leaving Sweden and spending time in the Soviet Union, he moved to the United States. Alfvén worked in the departments of electrical engineering at both the University of California, San Diego and the University of Southern California.
Alfvén spent his later adult life alternating between California and Sweden. He died at the age of 86.
In 1937, Alfvén argued that if plasma pervaded the universe, it could then carry electric currents capable of generating a galactic magnetic field. After winning the Nobel Prize for his works in magnetohydrodynamics, he emphasized that:
In order to understand the phenomena in a certain plasma region, it is necessary to map not only the magnetic but also the electric field and the electric currents. Space is filled with a network of currents which transfer energy and momentum over large or very large distances. The currents often pinch to filamentary or surface currents. The latter are likely to give space, as also interstellar and intergalactic space, a cellular structure.
Alfvén's work was disputed for many years by the senior scientist in space physics, the British mathematician and geophysicist Sydney Chapman. Alfvén's disagreements with Chapman stemmed in large part from trouble with the peer review system. Alfvén rarely benefited from the acceptance generally afforded senior scientists in scientific journals. He once submitted a paper on the theory of magnetic storms and auroras to the American journal Terrestrial Magnetism and Atmospheric Electricity only to have his paper rejected on the ground that it did not agree with the theoretical calculations of conventional physics of the time. He was regarded as a person with unorthodox opinions in the field by many physicists, R. H. Stuewer noting that "... he remained an embittered outsider, winning little respect from other scientists even after he received the Nobel Prize..." and was often forced to publish his papers in obscure journals. Alfvén recalled:
When I describe the [plasma phenomena] according to this formulism most referees do not understand what I say and turn down my papers. With the referee system which rules US science today, this means that my papers are rarely accepted by the leading US journals.
Alfvén played a central role in the development of:
- Plasma physics
- Charged particle beams
- Interplanetary medium
- Magnetospheric physics
- Solar phenomena investigation (such as the solar wind)
- Aurorae science
In 1939, Alfvén proposed the theory of magnetic storms and auroras and the theory of plasma dynamics in the earth's magnetosphere. This was the paper rejected by the U.S. journal Terrestrial Magnetism and Atmospheric Electricity.
Applications of Alfvén's research in space science include:
- Van Allen radiation belt theory
- Reduction of the Earth's magnetic field during magnetic storms
- Magnetosphere (protective plasma covering the earth)
- Formation of comet tails
- Formation of the solar system
- Dynamics of plasmas in the galaxy
- Physical cosmology
Alfvén's views followed those of the founder of magnetospheric physics, Kristian Birkeland. At the end of the nineteenth century, Birkeland proposed (backed by extensive data) that electric currents flowing down along the Earth's magnetic fields into the atmosphere caused the aurora and polar magnetic disturbances.
Areas of technology benefiting from Alfvén's contributions include:
- Particle accelerators
- Controlled thermonuclear fusion
- Hypersonic flight
- Rocket propulsion
- Reentry braking of space vehicles
Contributions to astrophysics:
- Galactic magnetic field (1937)
- Identified nonthermal synchrotron radiation from astronomical sources (1950)
Alfvén waves (low frequency hydromagnetic plasma oscillations) are named in his honor. Many of his theories about the solar system were verified as late as the 1980s through external measurements of cometary and planetary magnetospheres. But Alfvén himself noted that astrophysical textbooks poorly represented known plasma phenomena:
A study of how a number of the most used textbooks in astrophysics treat important concepts such as double layers, critical velocity, pinch effects, and circuits is made. It is found that students using these textbooks remain essentially ignorant of even the existence of these concepts, despite the fact that some of them have been well known for half a century (e.g, double layers, Langmuir, 1929; pinch effect, Bennet, 1934).
Alfvén reported that of 17 of the most used textbooks on astrophysics, none mention the pinch effect, none mentioned critical ionization velocity, only two mentioned circuits, and three mentioned double layers.
Alfvén believed the problem with the Big Bang was that astrophysicists tried to extrapolate the origin of the universe from mathematical theories developed on the blackboard, rather than starting from known observable phenomena. He also considered the Big Bang to be a scientific myth devised to explain creation. Alfvén and colleagues proposed the Alfvén-Klein model as an alternative cosmological theory to both the Big Bang and steady state theory cosmologies. A number of difficulties with the proposal have been highlighted.[clarification needed]
Alfvén had a good sense of humor, and he participated in a variety of social issues and worldwide disarmament movements. He had a long-standing distrust of computers. Alfvén studied the history of science, oriental philosophy, and religion. He spoke Swedish, English, German, French, and Russian, and some Spanish and Chinese. He expressed great concern about the difficulties of permanent high-level radioactive waste management." Alfvén was also interested in problems in cosmology and all aspects of auroral physics, and used Schröder's well known book on aurora, Das Phänomen des Polarlichts. Letters of Alfvén, Treder, and Schröder were published on the occasion of Treder's 70th birthday. A long paper on changes in auroral theories was published by Wilfried Schröder in honor of Hannes Alfvén's 80th birthday in the German scientific journal Gerlands Beiträge zur Geophysik in 1988. The relationships between Hans-Jürgen Treder, Hannes Alfvén and Wilfried Schröder were discussed in detail by Schröder in his publications.
Alfvén was married for 67 years to his wife Kerstin. They raised five children, one boy and four girls. His son became a physician, while one daughter became a writer and another a lawyer in Sweden. The composer Hugo Alfvén was Hannes Alfvén's uncle.
Awards and memberships
- Foreign Member of the Royal Society of London
- Gold Medal of the Royal Astronomical Society (1967)
- Nobel Prize in Physics (1970) for his work on magnetohydrodynamics (MHD)
- Franklin Medal of the Franklin Institute (1971)
- Lomonosov Gold Medal of the USSR Academy of Sciences (1971)
- William Bowie Medal of the American Geophysical Union (1988) for his work on comets and plasmas in the Solar system
- Royal Swedish Academy of Sciences
- Royal Swedish Academy of Engineering Sciences
- Institute of Electrical and Electronics Engineers (life fellow)
- European Physical Society
- Foreign Honorary Member of the American Academy of Arts and Sciences (1962)
- Yugoslav Academy of Sciences
- Pugwash Conferences on Science and World Affairs
- International Academy of Science
- Indian National Science Academy
- Cosmical Electrodynamics, International Series of Monographs on Physics, Oxford: Clarendon Press, 1950. (See also 2nd Ed. 1963, co-authored with Carl-Gunne Fälthammar)
- Worlds-Antiworlds: Antimatter in Cosmology (1966)
- The Great Computer: A Vision (1968) (a political-scientific satire under the pen name Olof Johannesson; publ. Gollancz, ISBN 0-575-00059-7)
- Atom, Man, and the Universe: A Long Chain of Complications, W.H. Freeman and Company, 1969.
- Living on the Third Planet, authored with Kerstin Alfvén, W.H. Freeman and Company, 1972. ISBN 0-7167-0340-8
- Cosmic Plasma, Astrophysics and Space Science Library, Vol. 82 (1981) Springer Verlag. ISBN 90-277-1151-8
- Schröder, Wilfried, and Hans Jürgen Treder. 2007. Theoretical physics and geophysics: Recollections of Hans-Jürgen Treder (1928–2006). Potsdam: Science Editions.
- On the cosmogony of the solar system I (1942) | Part II | Part III
- Interplanetary Magnetic Field (1958)
- On the Origin of Cosmic Magnetic Fields (1961)
- On the Filamentary Structure of the Solar Corona (1963)
- Currents in the Solar Atmosphere and a Theory of Solar Flares (1967)
- On the Importance of Electric Fields in the Magnetosphere and Interplanetary Space (1967)
- Jet Streams in Space (1970)
- Evolution of the Solar System (1976) with Gustaf Arrhenius (NASA book)
- Double radio sources and the new approach to cosmical plasma physics (1978) (PDF)
- Interstellar clouds and the formation of stars with Per Carlqvist (1978) (PDF)
- Energy source of the solar wind with Per Carlqvist (1980) (PDF) A direct transfer of energy from photospheric activity to the solar wind by means of electric currents is discussed.
- Electromagnetic Effects and the Structure of the Saturnian Rings (1981) (PDF)
- A three-ring circuit model of the magnetosphere with Whipple, E. C. and Jr.; McIlwain (1981) (PDF)
- The Voyager 1/Saturn encounter and the cosmogonic shadow effect (1981) (PDF)
- Origin, evolution and present structure of the asteroid region (1983) (PDF)
- On hierarchical cosmology (1983) (PDF) Progress in lab studies of plasmas and on their methods of transferring the results to cosmic conditions.
- Solar system history as recorded in the Saturnian ring structure (1983) (PDF)
- Cosmology - Myth or science? (1984) (PDF)
- Cosmogony as an extrapolation of magnetospheric research (1984) (PDF)
- "Alfvén, Hannes Olof Gosta". Who Was Who in America, 1993-1996, vol. 11. New Providence, N.J.: Marquis Who's Who. 1996. p. 4. ISBN 0-8379-0225-8.
- "History". Retrieved 25 May 2012.
- Hannes Alfvén, 1937 "Cosmic Radiation as an Intra-galactic Phenomenon", Ark. f. mat., astr. o. fys. 25B, no. 29.
- Hannes, A (1990). "Cosmology in the Plasma Universe: An Introductory Exposition". IEEE Transactions on Plasma Science 18: 5–10. Bibcode:1990ITPS...18....5P. doi:10.1109/27.45495. ISSN 0093-3813.
- Peratt, A. L., Peter, W., & Snell, C. M. (June 19-23, 1989). "3-dimensional particle-in-cell simulations of spiral galaxies". Proceedings of the 140th Symposium of IAU. Galactic and intergalactic magnetic fields. Heidelberg, Federal Republic of Germany: Kluwer Academic Publishers. pp. 143–150. Bibcode:1990IAUS..140..143P. Retrieved 16 May 2012.
- S. Chapman and J. Bartels, ‘’Geomagnetism,’’ Vol. 1 and 2, Clarendon Press, Oxford, 1940.
- "Hannes Alfvén (1908-1995)". Retrieved 22 May 2012.
- Miller, DJ; Hersen M (1992). Research Fraud in the Behavioral and Biomedical Sciences. pp. http://books.google.com/books?vid=ISBN0471520683&id=sw9QeD-bvJgC&pg=PA10 10]. ISBN 0471520683.
- Stuewer, RH (2006). "Book Reviews". Physics in Perspective 8 (1): 104–112. Bibcode:2006PhP.....8..104S. doi:10.1007/s00016-005-0251-5.
- Hannes Alfvén, "Memoirs of a Dissident Scientist", American Scientist, Volume 76, No 3, May-June 1988, pp. 249–251. Quoted in Joseph Paul Martino, Science Funding: Politics and Porkbarrel 1992, Transaction Publishers, ISBN 15600003303
- Hannes Alfvén, "Double layers and circuits in astrophysics" (1986) IEEE Transactions on Plasma Science (ISSN 0093-3813), vol. PS-14, Dec. 1986, p. 779-793.
- Hannes Alfvén, Cosmology—Myth or Science? J Astrophysics and Astronomy, vol. 5, pp. 79-98, (1984).
- Abbotts, John (October 1979). "Radioactive waste: A technical solution?". Bulletin of the Atomic Scientists: 12–18.
- Schröder, Wilfried . 2000. The Aurora in time. (Das Phänomen des Polarlichts). Darmstadt: Reproduction.
- Schröder, Wilfried, and Hans Jürgen Treder. 1998. From Newton to Einstein: A festschrift in honour of the 70th birthday of Hans-Jürgen Treder. Bremen: Rönnebeck; Arbeitskreis Geschichte der Geophysik in der Deutschen Geophysikalischen Gesellschaft.
- Schröder, Wilfried, and Hans Jürgen Treder. 1993. The earth and the universe: A festschrift in honour of Hans-Jürgen Treder. Bremen-Rönnebeck: Science Editions.
- Pease, R. S.; Lindqvist, S. (1998). "Hannes Olof Gosta Alfven. 30 May 1908-2 April 1995". Biographical Memoirs of Fellows of the Royal Society 44: 3. doi:10.1098/rsbm.1998.0001.
- "Book of Members, 1780-2010: Chapter A". American Academy of Arts and Sciences. Retrieved 14 April 2011.
|Wikiquote has a collection of quotations related to: Hannes Alfvén|
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