George Tilton

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George Tilton
Born (1923-06-03)June 3, 1923
Danville, IL
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Eugene, OR
Fields Geochemistry
Institutions University of California Santa Barbara
Alma mater University of Chicago
Thesis  (1957)
Known for U-Pb geochronology

George Tilton (June 3, 1923 – October 12, 2010) was an American geochemist who specialized in uranium-lead geochronology.[2] He was the first to measure a U-Pb date on zircon and was instrumental in developing analytical techniques for the measurement of U, Th, and Pb in minerals and rocks, using isotope dilution and mass spectrometry.[3]

Biography

George Tilton was born in Danville Illinois on the 3rd of June, 1923.[2] He enrolled at Blackburn College in Illinois, but his education was interrupted in 1943 when was called to serve in the US Army. He participated in the campaign to liberate France, where he was wounded in November 1944. After the war, in 1947, Tilton completed his B.S. in Chemistry from the University of Illinois, including a term paper on "reactions of slow and fast neutrons" and a senior thesis on the use of radioactive tracers to study chemical reactions. He earned his Ph.D. in Chemistry at the University of Chicago in 1951, working on clean lab chemistry, isotope dilution and mass spectrometry techniques to measure the uranium content of meteorites. Fellow graduate student Clair Patterson and he achieved two momentous results: the first accurate age of Earth and the solar system based on Pb isotope ratios, and the ages for terrestrial rocks using U-Pb isotopic dates. He was a researcher at the Carnegie Institution of Washington from 1951-1965, working on U-Pb dating and the use of isotope tracers. In 1965 George accepted the offer of a Professorship at the University of California, Santa Barbara. There he mentored many graduate students and researchers until his retirement in 1991. He remained an active Emeritus Professor there until a few years before his death.

Awards and honors

Selected bibliography

  • Tilton, GR; Aldrich, LT; Inghram, MG (1954). Mass Spectrometric Determination Of Thorium. Analytical Chemistry v. 26, p. 894-898, doi: 10.1021/Ac60089a026[4]
  • Tilton, GR; Patterson, C; Brown, H; et al. (1955). Isotopic Composition And Distribution Of Lead, Uranium, And Thorium In A Precambrian Granite. Geological Society Of America Bulletin v. 66, p. 1131-1148, doi: 10.1130/0016-7606(1955)66[1131:Icadol]2.0.Co;2[5]
  • Patterson, C; Tilton, G; Inghram, M (1955). Age Of The Earth. Science v. 121, p. 69-75, doi: 10.1126/Science.121.3134.69[6]
  • Tilton, GR; Nicolaysen, LO (1957). The Use Of Monazites For Age Determination. Geochimica Et Cosmochimica Acta v. 11, p. 28-40, doi: 10.1016/0016-7037(57)90003-0[7]
  • Tilton, GR (1960). Volume Diffusion As A Mechanism For Discordant Lead Ages. Journal Of Geophysical Research v. 65, p. 2933-2945, doi: 10.1029/Jz065i009p02933[8]
  • Tilton, GR; Hopson, CA; Wright, JE (1981). Uranium-Lead Isotopic Ages Of The Samail Ophiolite, Oman, With Applications To Tethyan Ocean Ridge Tectonics. Journal Of Geophysical Research v. 86, p. 2763-2775, doi: 10.1029/Jb086ib04p02763[9]
  • Tilton, GR; Schreyer, W; Schertl, HP (1991). Pb-Sr-Nd Isotopic Behavior Of Deeply Subducted Crustal Rocks From The Dora Maira Massif, Western Alps, Italy-What Is The Age Of The Ultrahigh-Pressure Metamorphism. Contributions To Mineralogy And Petrology v. 108, p. 22-33, doi: 10.1007/Bf00307323 [10]
  • Tilton, GR (1973). Isotopic Lead Ages Of Chondritic Meteorites. Earth And Planetary Science Letters v. 19, p. 321-329, doi: 10.1016/0012-821x(73)90082-4[11]

References

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  2. 2.0 2.1 Mattinson, JM, Hopson, C., 2011. George Robert Tilton (1923–2010). Eos, Transactions American Geophysical Union, volume 92, page 179, doi: 10.1029/2011EO210003
  3. Earth Processes: Reading the Isotopic Code. Basu, A., and S. Hart (Eds.) (1996), Geophys. Monogr. Ser., vol. 95, 437 pp., AGU, Washington, D. C
  4. Tilton, GR; Aldrich, LT; Inghram, MG (1954). Mass Spectrometric Determination Of Thorium. Analytical Chemistry v. 26, p.894-898
  5. Tilton, GR; Patterson, C; Brown, H; et al. (1955). Isotopic Composition And Distribution Of Lead, Uranium, And Thorium In A Precambrian Granite. Geological Society Of America Bulletin v. 66 , p.1131-1148
  6. Patterson, C; Tilton, G; Inghram, M (1955). Age Of The Earth. Science v. 121, p.69-75
  7. Tilton, GR; Nicolaysen, LO (1957). The Use Of Monazites For Age Determination. Geochimica Et Cosmochimica Acta v. 11, p.28-40
  8. Tilton, GR (1960). Volume Diffusion As A Mechanism For Discordant Lead Ages. Journal Of Geophysical Research v. 65, p.2933-2945
  9. Tilton, GR; Hopson, CA; Wright, JE (1981). Uranium-Lead Isotopic Ages Of The Samail Ophiolite, Oman, With Applications To Tethyan Ocean Ridge Tectonics. Journal Of Geophysical Research v. 86, p.2763-2775
  10. Tilton, GR; Schreyer, W; Schertl, HP (1991). Pb-Sr-Nd Isotopic Behavior Of Deeply Subducted Crustal Rocks From The Dora Maira Massif, Western Alps, Italy-What Is The Age Of The Ultrahigh-Pressure Metamorphism. Contributions To Mineralogy And Petrology v. 108, p.22-33
  11. Tilton, GR (1973). Isotopic Lead Ages Of Chondritic Meteorites. Earth And Planetary Science Letters v. 19, p.321-329

External links

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