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Nobel Prize in Physics

 
Oxford Dictionary of Physics:

Nobel Prizes in Physics

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YearName of prizewinner(s)Nature of work or discovery
1901Wilhelm Conrad Röntgen (1845–1923) GermanDiscovery of X-rays
1902Hendrik Lorentz (1853–1928) Dutch

Pieter Zeeman (1865–1943) Dutch		Discovery and explanation of the Zeeman effect
1903Antoine Henri Becquerel (1852–1908) French

Pierre Curie (1859–1906) French

Marie Curie (1867–1934) Polish–French		Discovery of spontaneous radioactivity

Work on radioactivity
1904John William Strutt (Lord Rayleigh) (1842–1919) BritishDiscovery of argon
1905Philipp Eduard Anton von Lenard (1862–1947) GermanWork on cathode rays
1906J. J. Thomson (1856–1940) BritishWork on cathode rays (discovery of the electron)
1907Albert Abraham Michelson (1852–1931) USThe Michelson–Morley experiment
1908Gabriel Lippmann (1845–1921) FrenchInvention of a form of colour photography
1909Guglielmo Marconi (1874–1937) Italian

Karl Ferdinand Braun (1850–1918) German		Development of wireless telegraphy
1910Johannes Diderik van der Waals (1837–1923) DutchWork on the equation of state for gases and liquids
1911Wilhelm Wien (1864–1928) GermanDiscoveries of the laws of radiation of heat
1912Nils Gustaf Dalén (1869–1937) SwedishInvention of automatic valves used in lighthouses and buoys
1913Heike Kamerlingh-Onnes (1853–1926) DutchInvestigations in low-temperature physics
1914Max von Laue (1879–1960) GermanDiscovery of X-ray diffraction by crystals
1915William Henry Bragg (1862–1942) Australian–British

William Lawrence Bragg (1890–1971) Australian–British		Work on X-ray crystallography
1917Charles Glover Barkla (1877–1944) BritishWork on X-ray spectroscopy
1918Max Planck (1858–1947) GermanDiscovery of energy quanta
1919Johannes Stark (1874–1957) GermanThe splitting of spectral lines in electric fields
1920Charles Édouard Guillaume (1861–1938) SwissResearch on nickel-steel alloys, used in the standard metre
1921Albert Einstein (1879–1955) German–SwissServices to theoretical physics, especially the photoelectric effect
1922Niels Bohr (1885–1962) DanishWork on the structure of atoms and atomic spectra
1923Robert Andrews Millikan (1868–1953) USWork on the electron charge and on the photoelectric effect
1924Manne Siegbahn (1886–1978) SwedishResearch in X-ray spectroscopy
1925James Franck (1882–1964) German

Gustav Hertz (1887–1975) German		Studies of collisions of electrons with atoms
1926Jean Baptiste Perrin (1870–1942) FrenchWork on colloids and sedimentation equilibrium
1927Arthur Holly Compton (1892–1962) USDiscovery of the Compton effect
1928Charles Thomson Rees Wilson (1869–1959) British

Owen Willans Richardson (1879–1959) British		Invention of the cloud chamber

Work on thermionic emission
1929Prince Louis-Victor Pierre Raymond de Broglie (1892–1987) FrenchDiscovery of the wave nature of electrons
1930Chandrasekhara Venkata Raman (1888–1970) IndianDiscovery of the Raman effect
1932Werner Heisenberg (1901–1976) GermanWork on quantum mechanics
1933Erwin Schrödinger (1887–1961) Austrian

Paul Dirac (1902–1984) British		Work on quantum mechanics and atomic theory
1935James Chadwick (1891–1974) BritishDiscovery of the neutron
1936Victor Francis Hess (1883–1964) Austrian

Carl David Anderson (1905–1991) US		Discovery of cosmic radiation

Discovery of the positron
1937Clinton Joseph Davisson (1881–1958) US

George Paget Thomson (1892–1975) British		Discovery of electron diffraction by crystals
1938Enrico Fermi (1901–1954) ItalianDiscovery of new radioactive elements and of nuclear reactions produced by slow neutrons
1939Ernest Lawrence (1901–1958) USInvention of the cyclotron and its use in making artificial elements
1943Otto Stern (1888–1969) GermanWork on molecular beams and the proton magnetic moment
1944Isidor Isaac Rabi (1898–1988) USWork on nuclear magnetic resonance
1945Wolfgang Pauli (1900–1958) AustrianDiscovery of the exclusion principle
1946Percy Williams Bridgman (1882–1961) USWork on physics at high pressure
1947Edward Victor Appleton (1892–1965) BritishInvestigations of the physics of the upper atmosphere; discovery of the Appleton layer
1948Patrick Maynard Stuart Blackett (1897–1974) BritishDevelopment of the Wilson cloud chamber, used in nuclear physics and cosmic radiation studies
1949Hideki Yukawa (1907–1981) JapaneseTheoretical prediction of the existence of mesons
1950Cecil Frank Powell (1903–1969) BritishThe photographic method of studying nuclear processes; discovery of the pi meson (pion)
1951John Douglas Cockcroft (1897–1967) British

Ernest Thomas Sinton Walton (1903–1995) Irish		Pioneering work on the transmutation of atomic nuclei by accelerated particles
1952Felix Bloch (1905–1983) Swiss

Edward Mills Purcell (1912–1997) US		Development of new techniques in nuclear magnetic resonance measurements
1953Frits Zernike (1888–1966) DutchWork on the phase-contrast; method; invention of the phasecontrast microscope
1954Max Born (1882–1970) German–British

Walther Bothe (1891–1957) German		Fundamental research in quantum mechanics, especially the statistical interpretation of the wave function

Invention of the coincidence method to study cosmic radiation
1955Willis Eugene Lamb (1913–2008) US

Polykarp Kusch (1911–1993) US		Work on the hydrogen spectrum and discovery of the Lamb shift

Precision determination of the electron magnetic moment
1956William Bradford Shockley (1910–1989) US

John Bardeen (1908–1991) US

Walter Houser Brattain (1902–1987) US		Research on semiconductors and the discovery of the transistor
1957Chen Ning Yang (1922–) Chinese

Tsung-Dao Lee (1926–) US		Investigations of the parity laws in particle physics
1958Pavel Alekseyevich Cherenkov (1904–1990)

Il'ya Frank (1908–1990) Soviet

Igor Yevgenyevich Tamm (1895–1971) Soviet		Work on the discovery and interpretation of Cherenkov radiation
1959Emilio Gino Segrè (1905–1989) US

Owen Chamberlain (1920–2006) US		Discovery of the antiproton
1960Donald Arthur Glaser (1926–) USInvention of the bubble chamber
1961Robert Hofstadter (1915–1990) US

Ludwig Mössbauer (1929–) German		Studies of nuclear structure Gamma-ray absorption and discovery of the Mössbauer effect
1962Lev Davidovich Landau (1908–1968) SovietTheoretical work on condensed matter physics, especially liquid helium
1963Eugene Paul Wigner (1902–1995) Hungarian–US

Maria Goeppert-Mayer (1906–1972) US

J. Hans D. Jensen (1907–1973) German		Theoretical work on nuclear and particle physics, especially using symmetry principles

Discoveries concerning nuclear shell structure
1964Charles Hard Townes (1915–) US

Nicolay Gennadiyevich Basov (1922–2001) Soviet

Aleksandr Prokhorov (1916–2002) Soviet		Fundamental work in quantum electronics leading to oscillators and amplifiers based on the maser–laser principle
1965Sin-Itiro Tomonaga (1906–1979) Japanese

Julian Schwinger (1918–1994) US

Richard Phillips Feynman (1918–1988) US		Fundamental work in quantum electrodynamics
1966Alfred Kastler (1902–1984) FrenchDiscovery and development of optical methods for studying Hertzian resonances)
1967Hans Albrecht Bethe (1906–2005) USTheory of nuclear reactions especially energy production in stars
1968Luis Walter Alvarez (1911–1988) USContributions to particle physics, in particular the discovery of resonance states
1969Murray Gell-Mann (1929–) USDiscoveries concerning the classification of elementary particles and their interactions
1970Hannes Olof Gösta Alfvén (1908–1995) Swedish

Louis Eugène Félix Néel (1904–2000) French		Fundamental work in magnetohydrodynamics

Discoveries concerning antiferromagnetism and ferrimagnetism
1971Dennis Gabor (1900–1979) BritishInvention and development of holography
1972John Bardeen (1908–1991) US

Leon Neil Cooper (1930–) US

John Robert Schrieffer (1931–) US		For their jointly developed theory of superconductivity (the BCS theory)
1973Leo Esaki (1925–) Japanese

Ivar Giaever (1929–) Norwegian–US

Brian David Josephson (1940–) British		Discoveries regarding tunnelling phenomena in superconductors

Theoretical predictions connected with the Josephson effect
1974Martin Ryle (1918–1984) British

Antony Hewish (1924–) British		The aperture synthesis technique in radio astronomy

The discovery of pulsars
1975Aage Niels Bohr (1922–) Danish

Ben Roy Mottelson (1926–) Danish

Leo James Rainwater (1917–1986) US		Theory of the nucleus (the liquid-drop model)
1976Burton Richter (1931–) US

Samuel Chao Chung Ting (1936–) US		Discovery of the J/Ψ particle
1977Philip Warren Anderson (1923–) US

Nevill Francis Mott (1905–1996) British

John Hasbrouck van Vleck (1899–1980) US		Fundamental theoretical work on magnetic and disordered systems
1978Pyotr Leonidovich Kapitsa (1894–1984) Soviet

Arno Allan Penzias (1933–) US

Robert Woodrow Wilson (1936–) US		Work on low-temperature physics

Discovery of cosmic microwave background radiation
1979Sheldon Lee Glashow (1932–) US

Abdus Salam (1926–1996) Pakistani

Steven Weinberg (1933–) US		Theory of the unified weak and electromagnetic interactions
1980James Watson Cronin (1931–) US

Val Logsdon Fitch (1923–) US		Discovery of CP violation in the decay of neutral K-mesons
1981Nicolaas Bloembergen (1920–) US

Arthur Leonard Schawlow (1921–1999) US

Kai Manne Börje Siegbahn (1918–2007) Swedish		Development of laser spectroscopy

Development of electron spectroscopy
1982Kenneth G. Wilson (1936–) USTheory of critical phenomena in connection with phase transitions
1983Subrahmanyan Chandrasekhar (1910–1995) Indian

William Alfred Fowler (1911–1995) US		Theoretical studies concerning the structure and evolution of stars (the Chandrasekhar limit)

Studies of the nuclear reactions of importance in the formation of the chemical elements
1984Carlo Rubbia (1934–) Italian

Simon van der Meer (1925–) Dutch		Work at CERN leading to the discovery of the W and Z particles.
1985Klaus von Klitzing (1943–) GermanDiscovery of the quantum Hall effect
1986Ernst Ruska (1906–1988) German

Gerd Binnig (1947–) German

Heinrich Rohrer (1933–) Swiss		Work in electron optics and the design of the first electron microscope

Design of the scanning tunnelling microscope
1987Johannes Georg Bednorz (1950–) German

Karl Alexander Müller (1927–) Swiss		Discovery of superconductivity in ceramic materials (high-temperature superconductivity)
1988Leon Max Lederman (1922–) US

Melvin Schwartz (1932–2006) US

Jack Steinberger (1921–) US		The neutrino beam method and the discovery of the muon neutrino
1989Norman Foster Ramsey (1915–) US

Hans Georg Dehmelt (1922–) US

Wolfgang Paul (1913–1933) German		Invention of the separated oscillatory fields method and its use in the hydrogen maser and other atomic clocks

Development of the ion-trap technique
1990Jerome I. Friedman (1930–) US

Henry Way Kendall (1926–1999) US

Richard E. Taylor (1929–) Canadian		Investigations of deep inelastic scattering of electrons on protons and bound neutrons
1991Pierre-Gilles de Gennes (1932–2007) FrenchWork on order phenomena, in particular in liquid crystals and polymers
1992Georges Charpak (1924–) FrenchInvention and development of particle detectors, in particular the multiwire proportional chamber
1993Russell Alan Hulse (1950–) US

Joseph Hooton Taylor Jr. (1941–) US		Discovery of a binary pulsar and its use to demonstrate gravitational waves
1994Bertram Brockhouse (1918–2003) Canadian

Clifford Glenwood Shull (1915–2001) US		Work on neutron spectroscopy

Work on neutron scattering techniques
1995Martin Lewis Perl (1927–) US

Frederick Reines (1918–1998) US		Discovery of the tau lepton and contributions to lepton physics

Detection of the neutrino and contributions to lepton physics
1996David Morris Lee (1931–) US

Robert Coleman Richardson (1937–) US

Douglas D. Osheroff (1945–) US		Discovery of superfluidity in helium-3
1997Steven Chu (1948–) US

Claude Cohen-Tannoudji (1933–) French

William Daniel Phillips (1948–) US		Development of laser techniques to trap atoms and produce low temperatures
1998Robert B. Laughlin (1950–) US

Horst Ludwig Störmer (1949–) German

Daniel Chee Tsui (1939–) US		Discovery of a new type of quantum fluid with fractionally charged excitations
1999Gerardus 't Hooft (1946–) Dutch

Martinus J. G. Veltman (1931–) Dutch		Quantum theory of electroweak interactions
2000Zhores Ivanovich Alferov (1930–) Russian

Herbert Kroemer (1928–) German

Jack St. Clair Kilby (1923–2005) US		Developing semiconductor heterostructures

Invention of the integrated circuit
2001Eric Allin Cornell (1961–) US

Wolfgang Ketterle (1957–) German

Carl Edwin Wieman (1951–) US		Work on Bose–Einstein condensation
2002Raymond Davis Jr. (1914–2006) US

Masatoshi Koshiba (1926–) Japanese

Riccardo Giacconi (1931–) US		The detection of cosmic neutrinos

The discovery of cosmic X-ray sources
2003Alexei Alexeevich Abrikosov (1928–) Russian

Vitaly Lazarevich Ginzburg (1916–) Russian

Anthony James Leggett (1938–) British		Pioneering contributions to the theory of superconductors and superfluids
2004David J. Gross (1941–) US

H. David Politzer (1949–) US

Frank Wilczek (1951–) US		Discovery of asymptotic freedom in the theory of the strong interaction
2005Roy J. Glauber (1925–) US

John L. Hall (1934–) US

Theodor W. Hänsch (1941–) German		Work on the quantum theory of optical coherence

Work on laser spectroscopy (the optical frequency comb technique)
2006John C. Mather (1946–) US

George F. Smoot (1945–) US		Work on the cosmic microwave background radiation (COBE)
2007Albert Fert (1938–) French

Peter Grünberg (1939–) German		Discovery of giant magnetoresistance
2008Yoichiro Nambu (1921–) US

Makoto Kobayashi (1944–) Japanese

Toshihide Maskawa (1940–) Japanese		Discovery of the mechanism of spontaneous broken symmetry

Discovery of the origin of the broken symmetry predicting at least three families of quarks


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Nobel Prize in Physics

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Home > Library > Miscellaneous > Wikipedia
The Nobel Prize in Physics
Awarded for Outstanding contributions in Physics
Presented by Royal Swedish Academy of Sciences
Country Sweden
First awarded 1901
Official website nobelprize.org
Wilhelm Röntgen (1845–1923), the first recipient of the Nobel Prize in Physics.

The Nobel Prize in Physics (Swedish: Nobelpriset i fysik) is awarded once a year by the Royal Swedish Academy of Sciences. It is one of the five Nobel Prizes established by the will of Alfred Nobel in 1895 and awarded since 1901; the others are the Nobel Prize in Chemistry, Nobel Prize in Literature, Nobel Peace Prize, and Nobel Prize in Physiology or Medicine. The first Nobel Prize in Physics was awarded to Wilhelm Conrad Röntgen, a German, "in recognition of the extraordinary services he has rendered by the discovery of the remarkable rays (or x-rays)." This award is administered by the Nobel Foundation and widely regarded as the most prestigious award that a scientist can receive in physics. It is presented in Stockholm at an annual ceremony on December 10, the anniversary of Nobel's death.

Contents

Background

Alfred Nobel requested in his last will and testament that his money be used to create a series of prizes for those who confer the "greatest benefit on mankind" in physics, chemistry, peace, physiology or medicine, and literature.[1][2] Though Nobel wrote several wills during his lifetime, the last was written a little over a year before he died, and signed at the Swedish-Norwegian Club in Paris on 27 November 1895.[3][4] Nobel bequeathed 94% of his total assets, 31 million Swedish kronor (US$186 million in 2008), to establish and endow the five Nobel Prizes.[5] Due to the level of skepticism surrounding the will it was not until April 26, 1897 that it was approved by the Storting (the Norwegian Parliament).[6][7] The executors of his will were Ragnar Sohlman and Rudolf Lilljequist, who formed the Nobel Foundation to take care of Nobel's fortune and organise the prizes.

The members of the Norwegian Nobel Committee who were to award the Peace Prize were appointed shortly after the will was approved. The prize-awarding organisations followed: the Karolinska Institutet on June 7, the Swedish Academy on June 9, and the Royal Swedish Academy of Sciences on June 11.[8][9] The Nobel Foundation then reached an agreement on guidelines for how the Nobel Prize should be awarded. In 1900, the Nobel Foundation's newly created statutes were promulgated by King Oscar II.[7][10][11] According to Nobel's will, The Royal Swedish Academy of sciences were to award the Prize in Physics.[11]

Nomination and selection

Main article: List of Nobel laureates in Physics

A maximum of three Nobel laureates and two different works may be selected for the Nobel Prize in Physics.[12] Compared with some other Nobel Prizes, the nomination and selection process for the prize in Physics is long and rigorous. This is a key reason it has grown in importance over the years to become the most important prize in Physics.[13]

The Nobel laureates are selected by the Nobel Committee for Physics, a Nobel Committee that consists of five members elected by The Royal Swedish Academy of Sciences. In the first stage, several thousand people are asked to nominate candidates. These names are scrutinized and discussed by experts until the choice is made.

Forms are sent to about three thousand individuals to invite them to submit nominations. The names of the nominees are never publicly announced, and neither are they told that they have been considered for the prize. Nomination records are sealed for fifty years. In practice, some nominees do become known. It is also common for publicists to make such a claim, founded or not.

The nominations are screened by committee, and a list is produced of approximately two hundred preliminary candidates. This list is forwarded to selected experts in the field. They narrow it down to approximately fifteen names. The committee submits a report with recommendations to the appropriate institution.

While posthumous nominations are not permitted, awards can be made if the individual died in the months between the decision of the prize committee (typically in October) and the ceremony in December. Prior to 1974, posthumous awards were permitted if the recipient had died after being nominated.[14]

The rules for the Nobel Prize in Physics require that the significance of achievements being recognized has been "tested by time." In practice it means that the lag between the discovery and the award is typically on the order of 20 years and can be much longer. For example, half of the 1983 Nobel Prize in Physics was awarded to Subrahmanyan Chandrasekhar for his work on stellar structure and evolution that was done during the 1930s. As a downside of this approach, not all scientists live long enough for their work to be recognized. Some important scientific discoveries are never considered for a prize, as the discoverers may have died by the time the impact of their work is appreciated.[15][16][17]

Prizes

A Physics Nobel Prize laureate earns a gold medal, a diploma bearing a citation, and a sum of money.[18] The amount of money awarded depends on the income of the Nobel Foundation that year.[19] If a prize is awarded to more than one laureate, the money is either split evenly among them or, for three laureates, it may be divided into a half and two quarters.[20] If a prize is awarded jointly to two or more laureates, the money is split among them.[20]

Medals

The Nobel Prize medals, minted by Myntverket[21] in Sweden and the Mint of Norway since 1902, are registered trademarks of the Nobel Foundation. Each medal has an image of Alfred Nobel in left profile on the obverse (front side of the medal). The Nobel Prize medals for Physics, Chemistry, Physiology or Medicine, and Literature have identical obverses, showing the image of Alfred Nobel and the years of his birth and death (1833–1896). Nobel's portrait also appears on the obverse of the Nobel Peace Prize medal and the Medal for the Prize in Economics, but with a slightly different design.[22][23] The image on the reverse of a medal varies according to the institution awarding the prize. The reverse sides of the Nobel Prize medals for Chemistry and Physics share the same design.[24]

Diplomas

Nobel laureates receive a diploma directly from the hands of the King of Sweden. Each diploma is uniquely designed by the prize-awarding institutions for the laureate that receives it.[25] The diploma contains a picture and text which states the name of the laureate and normally a citation of why they received the prize.[25]

Award money

The laureate is also given a sum of money when they receive the Nobel Prize in the form of a document confirming the amount awarded; in 2009, the monetary award was 10 million SEK (US$1.4 million).[19] The amount may differ depending on how much money the Nobel Foundation can award that year. If there are two winners in a particular category, the award grant is divided equally between the recipients. If there are three, the awarding committee has the option of dividing the grant equally, or awarding one-half to one recipient and one-quarter to each of the others.[26][27][28][29]

Ceremony

The committee and institution serving as the selection board for the prize typically announce the names of the laureates in October. The prize is then awarded at formal ceremonies held annually on 10 December, the anniversary of Nobel's death. "The highlight of the Nobel Prize Award Ceremony in Stockholm is when each Nobel Laureate steps forward to receive the prize from the hands of His Majesty the King of Sweden. ... Under the eyes of a watching world, the Nobel Laureate receives three things: a diploma, a medal and a document confirming the prize amount" ("What the Nobel Laureates Receive").

The Nobel Banquet is held every year in Stockholm City Hall in connection with the Nobel Prize.[30]

See also

Notes

  1. ^ "History – Historic Figures: Alfred Nobel (1833–1896)". BBC. http://www.bbc.co.uk/history/historic_figures/nobel_alfred.shtml. Retrieved 2010-01-15. 
  2. ^ "Guide to Nobel Prize". Britannica.com. http://www.britannica.com/nobelprize/article-9056008. Retrieved 2010-01-15. 
  3. ^ Ragnar Sohlman: 1983, Page 7
  4. ^ von Euler, U.S. (6 June 1981). "The Nobel Foundation and its Role for Modern Day Science" (PDF). Die Naturwissenschaften (Springer-Verlag). http://resources.metapress.com/pdf-preview.axd?code=xu7j67w616m06488&size=largest. Retrieved 21 January 2010. 
  5. ^ "The Will of Alfred Nobel", nobelprize.org. Retrieved 6 November 2007.
  6. ^ "The Nobel Foundation – History". Nobelprize.org. http://nobelprize.org/nobelfoundation/history/lemmel/index.html. Retrieved 2010-01-15. [dead link]
  7. ^ a b Agneta Wallin Levinovitz: 2001, Page 13
  8. ^ "Nobel Prize History —". Infoplease.com. 1999-10-13. http://www.infoplease.com/spot/nobel-prize-history.html. Retrieved 2010-01-15. 
  9. ^ Encyclopædia Britannica. "Nobel Foundation (Scandinavian organisation) – Britannica Online Encyclopedia". Britannica.com. http://www.britannica.com/EBchecked/topic/416852/Nobel-Foundation. Retrieved 2010-01-15. 
  10. ^ AFP, "Alfred Nobel's last will and testament", The Local(5 October 2009): accessed 20 January 2010.
  11. ^ a b "Nobel Prize" (2007), in Encyclopædia Britannica, accessed 15 January 2009, from Encyclopædia Britannica Online:
    After Nobel’s death, the Nobel Foundation was set up to carry out the provisions of his will and to administer his funds. In his will, he had stipulated that four different institutions—three Swedish and one Norwegian—should award the prizes. From Stockholm, the Royal Swedish Academy of Sciences confers the prizes for physics, chemistry, and economics, the Karolinska Institute confers the prize for physiology or medicine, and the Swedish Academy confers the prize for literature. The Norwegian Nobel Committee based in Oslo confers the prize for peace. The Nobel Foundation is the legal owner and functional administrator of the funds and serves as the joint administrative body of the prize-awarding institutions, but it is not concerned with the prize deliberations or decisions, which rest exclusively with the four institutions.
  12. ^ "What the Nobel Laureates Receive". Retrieved November 1, 2007. Archived October 30, 2007 at the Wayback Machine
  13. ^ "The Nobel Prize Selection Process", Encyclopædia Britannica, accessed November 5, 2007 (Flowchart).
  14. ^ FAQ nobelprize.org
  15. ^ "web-041003.dvi" (PDF). http://nobelprize.org/nobel_prizes/economics/laureates/2004/ecoadv.pdf. Retrieved 2010-02-05. 
  16. ^ Gingras, Yves; Wallace, Matthew L. (2009). "Why it has become more difficult to predict Nobel Prize winners: A bibliometric analysis of nominees and winners of the chemistry and physics prizes (1901–2007)". Scientometrics 82 (2): 401. doi:10.1007/s11192-009-0035-9. 
  17. ^ Nature Chemistry. Bibcode 2009NatCh...1..509.. doi:10.1038/nchem.372. 
  18. ^ Tom Rivers (2009-12-10). "2009 Nobel Laureates Receive Their Honors | Europe| English". .voanews.com. http://www1.voanews.com/english/news/europe/2009-Nobel-Laureates-Receive-Their-Honors-78989292.html. Retrieved 2010-01-15. 
  19. ^ a b "The Nobel Prize Amounts". Nobelprize.org. http://nobelprize.org/nobel_prizes/amounts.html. Retrieved 2010-01-15. [dead link]
  20. ^ a b "Nobel Prize – Prizes" (2007), in Encyclopædia Britannica, accessed 15 January 2009, from Encyclopædia Britannica Online:
    Each Nobel Prize consists of a gold medal, a diploma bearing a citation, and a sum of money, the amount of which depends on the income of the Nobel Foundation. (A sum of $1,300,000 accompanied each prize in 2005.) A Nobel Prize is either given entirely to one person, divided equally between two persons, or shared by three persons. In the latter case, each of the three persons can receive a one-third share of the prize or two together can receive a one-half share.
  21. ^ "Medalj – ett traditionellt hantverk" (in Swedish). Myntverket. http://www.myntverket.se/products.asp?lang=sv&page=3. Retrieved 2007-12-15. 
  22. ^ "The Nobel Prize for Peace", "Linus Pauling: Awards, Honors, and Medals", Linus Pauling and The Nature of the Chemical Bond: A Documentary History, the Valley Library, Oregon State University. Retrieved 7 December 2007.
  23. ^ "The Nobel Medals". Ceptualinstitute.com. http://www.ceptualinstitute.com/galleria/awards/nobel/nobelmedals.html. Retrieved 2010-01-15. 
  24. ^ "Nobel Prize for Chemistry. Front and back images of the medal. 1954", "Source: Photo by Eric Arnold. Ava Helen and Linus Pauling Papers. Honors and Awards, 1954h2.1", "All Documents and Media: Pictures and Illustrations", Linus Pauling and The Nature of the Chemical Bond: A Documentary History, the Valley Library, Oregon State University. Retrieved 7 December 2007.
  25. ^ a b "The Nobel Prize Diplomas". Nobelprize.org. http://nobelprize.org/nobel_prizes/diplomas/. Retrieved 2010-01-15. [dead link]
  26. ^ Sample, Ian (2009-10-05). "Nobel prize for medicine shared by scientists for work on ageing and cancer | Science | guardian.co.uk". London: Guardian. http://www.guardian.co.uk/science/2009/oct/05/nobel-prize-medicine-2009-award. Retrieved 2010-01-15. 
  27. ^ Ian Sample, Science correspondent (2008-10-07). "Three share Nobel prize for physics | Science | guardian.co.uk". London: Guardian. http://www.guardian.co.uk/science/2008/oct/07/physics.nobel. Retrieved 2010-02-10. 
  28. ^ David Landes. "Americans claim Nobel economics prize – The Local". Thelocal.se. http://www.thelocal.se/22604/20091012/. Retrieved 2010-01-15. 
  29. ^ "The 2009 Nobel Prize in Physics - Press Release". Nobelprize.org. 2009-10-06. http://nobelprize.org/nobel_prizes/physics/laureates/2009/press.html. Retrieved 2010-02-10. 
  30. ^ Nobel Prize Foundation Website

References

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