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George Fitzgerald Smoot III (born February 20 1945) is an American astrophysicist and cosmologist awarded the 2006 Nobel Prize in Physics with John C. Mather for "their discovery of the black body form and anisotropy of the cosmic microwave background radiation".

This work helped cement the big-bang theory of the universe using the COBE (Cosmic Background Explorer) satellite. According to the Nobel Prize committee, "the COBE-project can also be regarded as the starting point for cosmology as a precision science". ^[1]

He is a professor of physics at the University of California, Berkeley. In 2003 he was awarded the Einstein Medal.

Biography

Education

Smoot was born on 20 February 1945 in Yukon, Florida. He studied mathematics before switching to the Massachusetts Institute of Technology where he obtained dual bachelor's degrees in mathematics and physics in 1966, and a doctorate in particle physics in 1970.^[2]

Although Smoot attended MIT, he was not the same Smoot who was laid end to end to measure the Harvard Bridge between Cambridge and Boston^[3]^[4]; this was his cousin^[5] Oliver R. Smoot^[6], an MIT alumnus who served as the chairman of the American National Standards Institute.

Initial research

George Smoot then switched to cosmology, and went to Lawrence Berkeley National Laboratory where he collaborated with Luis Walter Alvarez on the experiment HAPPE, a stratospheric balloon for the detection of antimatter in the upper atmosphere, which was predicted by the now obscure steady state theory of cosmology.

He then took up an interest in cosmic microwave background radiation (CMB), previously discovered by Arno Allan Penzias and Robert Woodrow Wilson in 1964. There were, at that time, several open questions about this, relating directly to fundamental questions about the structure of the universe. Certain models predicted the universe as a whole was rotating, which would have an effect on the CMB: its temperature depending on the direction of observation. With the help of Alvarez and Richard A. Muller, Smoot developed a differential radiometer which measured the difference in temperature of the CMB between two directions 60 degrees apart. The instrument, which was mounted on a Lockheed U-2 plane, made it possible to determine that the overall rotation of the universe was zero (within the limit of accuracy of the instrument). It did, however, detect a variation in the temperature of the CMB of a different sort. This dipole pattern (meaning that the CMB appears to be at a higher temperature on one side of the sky than on the opposite side) has been explained as a Doppler effect of the Earth's motion relative to the area of CMB emission, which is called the last scattering surface. Such a doppler effect arises because the Sun (and in fact the Milky Way as a whole) is not stationary, but rather is moving at nearly 600 km/s with respect to the last scattering surface. This is probably due to the gravitational attraction between our galaxy and a concentration of mass like the Great Attractor.

Participation in COBE

At that time, the CMB appeared to be perfectly uniform excluding the distortion caused by the Doppler effect as mentioned above. This result contradicted observations of the universe, with various structures (galaxies, galaxy clusters, etc.) that indicate that the universe was relatively inhomogenous on a small scale. However, these structures formed slowly. Thus, if the universe is inhomogenous today, it would be inhomogenous at the time of the emission of the CMB as well, observable today through weak variations in the temperature of the CMB. It was the detection of these anisotropies that Smoot was working on in the late 1970s. He then proposed to NASA a project involving a satellite equipped with a detector that was similar to the one mounted on the U-2, but was more sensitive and not influenced by air pollution. The proposal was accepted and gave rise to the satellite COBE, and cost US$ 160 million. COBE was launched on November 18, 1989, after a delay owing to the destruction of the Space Shuttle Challenger. After more than two years of observation and analysis, the COBE research team announced on 23 April 1992 that the satellite had detected tiny fluctuations in the CMB, a breakthrough in the study of the early universe. ^[7]

The success of COBE was the outcome of prodigious team work involving more than 1,000 researchers, engineers and other participants. John Mather coordinated the entire process and also had primary responsibility for the experiment that revealed the blackbody form of the CMB measured by COBE. George Smoot had main responsibility for measuring the small variations in the temperature of the radiation^[8].

Smoot collaborated with San Francisco Chronicle journalist Keay Davidson to write the general-audience book Wrinkles in Time ^[9], first published in 1994, that chronicled his team's efforts. The book "The Very First Light: The True Inside Story of the Scientific Journey Back to the Dawn of the Universe" by John Mather and John Boslough <ref> "The Very First Light: The True Inside Story of the Scientific Journey Back to the Dawn of the Universe" Basic Books (19 Jan 1997), ISBN 0465015751<ref> complements and broadens the COBE story as presented in Smoot's Wrinkles in Times. In this book Mather reports that George Smoot violated team policy by leaking news of COBE's discoveries to the press before NASA's formal announcement, a leak that, to Mather, smacks of self-promotion and betrayal.

Recent projects

After COBE, Smoot took part in another experiment involving a stratospheric balloon, MAXIMA, which was more precise than COBE, and refined the measurements of the anistrophies of the CMB. He is also a collaborator in SNAP, a satellite which is proposed to measured properties of dark energy, and data from the Spitzer Space Telescope in connection with far infrared background.

External references

External links

Template:Persondata

References

Original text translated from French language article.

^ "Information for the public" (PDF). The Royal Swedish Academy of Sciences. 2006-10-03. Retrieved 2006-10-05.
^ "Nobelists' work supports big-bang theory" (Press release). MIT Press Office. 2006-10-03. Retrieved 2006-10-03.
^ George Smoot. "The SMOOT as unit of Length". Retrieved 2006-10-07.
^ Talk of the Nation (2006-10-06). "Winning the Nobel Prize". National Public Radio. Retrieved 2006-10-07.
^ Talk of the Nation (2006-10-06). "Winning the Nobel Prize". National Public Radio. Retrieved 2006-10-07.
^ All Things Considered (2005-12-07). "Smoot, Namesake of a Unit of Length, Retires". National Public Radio. Retrieved 2006-10-07.
^ Smoot, G. F et al., Structure in the COBE differential microwave radiometer first-year maps, Astrophysical Journal 396, L1 (1992)
^ Press release: Pictures of a newborn Universe
^ Wrinkles in Time by George Smoot and Keay Davidson, Harper Perennial, Reprint edition (October 1, 1994) ISBN 0380720442

[1] "Information for the public" (PDF). The Royal Swedish Academy of Sciences. 2006-10-03. Retrieved 2006-10-05.

[2] "Nobelists' work supports big-bang theory" (Press release). MIT Press Office. 2006-10-03. Retrieved 2006-10-03.

[3] George Smoot. "The SMOOT as unit of Length". Retrieved 2006-10-07.

[4] Talk of the Nation (2006-10-06). "Winning the Nobel Prize". National Public Radio. Retrieved 2006-10-07.

[5] Talk of the Nation (2006-10-06). "Winning the Nobel Prize". National Public Radio. Retrieved 2006-10-07.

[6] All Things Considered (2005-12-07). "Smoot, Namesake of a Unit of Length, Retires". National Public Radio. Retrieved 2006-10-07.

[7] Smoot, G. F et al., Structure in the COBE differential microwave radiometer first-year maps, Astrophysical Journal 396, L1 (1992)

[8] Press release: Pictures of a newborn Universe

[9] Wrinkles in Time by George Smoot and Keay Davidson, Harper Perennial, Reprint edition (October 1, 1994) ISBN 0380720442

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 The success of [[COBE]] was the outcome of prodigious team work involving more than 1,000 researchers, engineers and other participants. John Mather coordinated the entire process and also had primary responsibility for the experiment that revealed the blackbody form of the CMB measured by COBE. George Smoot had main responsibility for measuring the small variations in the temperature of the radiation<ref>[http://nobelprize.org/nobel_prizes/physics/laureates/2006/press.html Press release: Pictures of a newborn Universe]</ref>.
-Smoot collaborated with ''[[San Francisco Chronicle]]'' journalist Keay Davidson to write the general-audience book ''Wrinkles in Time'' <ref>''Wrinkles in Time'' by George Smoot and Keay Davidson, Harper Perennial, Reprint edition (October 1, 1994) [[ISBN]] 0380720442</ref>, first published in 1994, that chronicled his team's efforts.
+Smoot collaborated with ''[[San Francisco Chronicle]]'' journalist Keay Davidson to write the general-audience book ''Wrinkles in Time'' <ref>''Wrinkles in Time'' by George Smoot and Keay Davidson, Harper Perennial, Reprint edition (October 1, 1994) [[ISBN]] 0380720442</ref>, first published in 1994, that chronicled his team's efforts. The book "The Very First Light: The True Inside Story of the Scientific Journey Back to the Dawn of the Universe" by John Mather and John Boslough
+<ref> "The Very First Light: The True Inside Story of the Scientific Journey Back to the Dawn of the Universe" Basic Books (19 Jan 1997), [[ISBN]] 0465015751<ref> complements and broadens the COBE story as presented in Smoot's Wrinkles in Times. In this book Mather reports that George Smoot violated team policy by leaking news of COBE's discoveries to the press before NASA's formal announcement, a leak that, to Mather, smacks of self-promotion and betrayal.
 ===Recent projects===

v t e Laureates of the Nobel Prize in Physics
1901–1925	1901: Röntgen 1902: Lorentz / Zeeman 1903: Becquerel / P. Curie / M. Curie 1904: Rayleigh 1905: Lenard 1906: J. J. Thomson 1907: Michelson 1908: Lippmann 1909: Marconi / Braun 1910: Van der Waals 1911: Wien 1912: Dalén 1913: Kamerlingh Onnes 1914: Laue 1915: W. L. Bragg / W. H. Bragg 1916 1917: Barkla 1918: Planck 1919: Stark 1920: Guillaume 1921: Einstein 1922: N. Bohr 1923: Millikan 1924: M. Siegbahn 1925: Franck / Hertz
1926–1950	1926: Perrin 1927: Compton / C. Wilson 1928: O. Richardson 1929: De Broglie 1930: Raman 1931 1932: Heisenberg 1933: Schrödinger / Dirac 1934 1935: Chadwick 1936: Hess / C. D. Anderson 1937: Davisson / G. P. Thomson 1938: Fermi 1939: Lawrence 1940 1941 1942 1943: Stern 1944: Rabi 1945: Pauli 1946: Bridgman 1947: Appleton 1948: Blackett 1949: Yukawa 1950: Powell
1951–1975	1951: Cockcroft / Walton 1952: Bloch / Purcell 1953: Zernike 1954: Born / Bothe 1955: Lamb / Kusch 1956: Shockley / Bardeen / Brattain 1957: C. N. Yang / T. D. Lee 1958: Cherenkov / Frank / Tamm 1959: Segrè / Chamberlain 1960: Glaser 1961: Hofstadter / Mössbauer 1962: Landau 1963: Wigner / Goeppert Mayer / Jensen 1964: Townes / Basov / Prokhorov 1965: Tomonaga / Schwinger / Feynman 1966: Kastler 1967: Bethe 1968: Alvarez 1969: Gell-Mann 1970: Alfvén / Néel 1971: Gabor 1972: Bardeen / Cooper / Schrieffer 1973: Esaki / Giaever / Josephson 1974: Ryle / Hewish 1975: A. Bohr / Mottelson / Rainwater
1976–2000	1976: Richter / Ting 1977: P. W. Anderson / Mott / Van Vleck 1978: Kapitsa / Penzias / R. Wilson 1979: Glashow / Salam / Weinberg 1980: Cronin / Fitch 1981: Bloembergen / Schawlow / K. Siegbahn 1982: K. Wilson 1983: Chandrasekhar / Fowler 1984: Rubbia / Van der Meer 1985: von Klitzing 1986: Ruska / Binnig / Rohrer 1987: Bednorz / Müller 1988: Lederman / Schwartz / Steinberger 1989: Ramsey / Dehmelt / Paul 1990: Friedman / Kendall / R. Taylor 1991: de Gennes 1992: Charpak 1993: Hulse / J. Taylor 1994: Brockhouse / Shull 1995: Perl / Reines 1996: D. Lee / Osheroff / R. Richardson 1997: Chu / Cohen-Tannoudji / Phillips 1998: Laughlin / Störmer / Tsui 1999: 't Hooft / Veltman 2000: Alferov / Kroemer / Kilby
2001– present	2001: Cornell / Ketterle / Wieman 2002: Davis / Koshiba / Giacconi 2003: Abrikosov / Ginzburg / Leggett 2004: Gross / Politzer / Wilczek 2005: Glauber / Hall / Hänsch 2006: Mather / Smoot 2007: Fert / Grünberg 2008: Nambu / Kobayashi / Maskawa 2009: Kao / Boyle / Smith 2010: Geim / Novoselov 2011: Perlmutter / Schmidt / Riess 2012: Wineland / Haroche 2013: Englert / Higgs 2014: Akasaki / Amano / Nakamura 2015: Kajita / McDonald 2016: Thouless / Haldane / Kosterlitz 2017: Weiss / Barish / Thorne 2018: Ashkin / Mourou / Strickland 2019: Peebles / Mayor / Queloz 2020: Penrose / Genzel / Ghez 2021: Parisi / Hasselmann / Manabe 2022: Aspect / Clauser / Zeilinger 2023: Agostini / Krausz / L'Huillier 2024: Hopfield / Hinton