Demetrios Christodoulou

Demetrios Christodoulou
Demetrios Christodoulou
Born	October 19, 1951 (age 73); Athens, Greece
Nationality	Greek
Citizenship	Greek, U.S.
Alma mater	Princeton University
Known for	partial differential equations, geometric analysis, general relativity, fluid mechanics
Awards	MacArthur Fellows Award (1993); Bôcher Memorial Prize (1999); Member of American Academy of Arts and Sciences (2001); Tomalla Foundation Prize (2008); Shaw Prize (2011); Member of U.S. National Academy of Sciences (2012)
	Scientific career
Fields	Mathematics, Physics
Institutions	Princeton University; Caltech; CERN; Syracuse University; Courant Institute; ETH Zurich
Doctoral advisor	John Archibald Wheeler
Doctoral students	Longdong Qiu, Fadi Twainy, Gilbert Weinstein, Anthony Rizzi, Mihalis Dafermos, Enno Lenzmann, Lydia Bieri

Demetrios Christodoulou (Template:Lang-el) (born October 19, 1951^[1]) is a Greek mathematician and physicist, who first became well known for his proof, together with Sergiu Klainerman, of the nonlinear stability of the Minkowski spacetime of special relativity in the framework of general relativity.

Christodoulou was born in Athens and received his doctorate from Princeton University in 1971 under the direction of John Archibald Wheeler.^[2] He has taught at Syracuse University, the Courant Institute and Princeton University, and has also worked at Caltech and CERN. He holds dual Greek and U.S. citizenship. He is currently on the faculty of the ETH Zurich in Switzerland.^[1]

In 1993, he published a book coauthored with Klainerman in which the extraordinarily difficult proof of the stability result is laid out in detail. In that year, he was named a MacArthur Fellow. In 1991, he published a paper^[3] which shows that the test masses of a gravitational wave detector suffer permanent relative displacements after the passage of a gravitational wave train, an effect which has been named "nonlinear memory effect". In the period 1987-1999 he published a series of papers on the gravitational collapse of a spherically symmetric self-gravitating scalar field and the formation of black holes and associated spacetime singularities.^[4]^[5]^[6] He also showed that, contrary to what had been expected, singularities which are not hidden in a black hole also occur.^[7] However, he then showed that such "naked singularities" are unstable.^[8]

Christodoulou is a recipient of the Bôcher Memorial Prize,^[9] the highest award of the American Mathematical Society. The Bôcher Prize citation mentions his work on the spherically symmetric scalar field as well as his work on the stability of Minkowski spacetime. In 2007, Christodoulou published a book on the formation of shock waves in 3-dimensional fluids. In 2008 he was awarded the Tomalla prize in gravitation.^[10] In 2009 he published a book where a result which complements the stability result is proved. Namely, that a sufficiently strong flux of incoming gravitational waves leads to the formation of a black hole. In 2011, he and Richard Hamilton won the Shaw Prize in the Mathematical Sciences,^[11] "for their highly innovative works on nonlinear partial differential equations in Lorentzian and Riemannian geometry and their applications to general relativity and topology". The citation for Christodoulou mentions his work on the formation of black holes by gravitational waves as well as his earlier work on the spherically symmetric self-gravitating scalar field and his work with Klainerman on the stability of Minkowski spacetime. Christodoulou is a member of the American Academy of Arts and Sciences and of the U.S. National Academy of Sciences.^[12] In 2012 he became a fellow of the American Mathematical Society.^[13]

References

^ ^a ^b "Demetrios Christodoulou Curriculum Vitae" (PDF). Swiss Federal Institute of Technology Zurich. Retrieved 13 April 2010.
^ "Demetrios Christodoulou". Mathematical Genealogy Project. Retrieved August 8, 2005.
^ D. Christodoulou (1991). "Nonlinear nature of gravitation and gravitational-wave experiments". Phys. Rev. Lett. 67 (12): 1486–1489. Bibcode:1991PhRvL..67.1486C. doi:10.1103/PhysRevLett.67.1486. PMID 10044168.
^ D. Christodoulou (1987). "A mathematical theory of gravitational collapse". Commun. Math. Phys. 109 (4): 613–647. Bibcode:1987CMaPh.109..613C. doi:10.1007/BF01208960.
^ D. Christodoulou (1991). "The formation of black holes and singularities in spherically symmetric gravitational collapse". Commun. Pure & Appl. Math. 44 (3): 339–373. doi:10.1002/cpa.3160440305.
^ D. Christodoulou (1993). "Bounded variation solutions of the spherically symmetric Einstein-scalar field equations". Commun. Pure & Appl. Math. 46 (8): 1131–1220. doi:10.1002/cpa.3160460803.
^ D.Christodoulou (1994). "Examples of naked singularity formation in the gravitational collapse of a scalar field". Ann. Math. 140 (3): 607–653. doi:10.2307/2118619.
^ D. Christodoulou (1999). "The instability of naked singularities in the gravitational collapse of a scalar field". Ann. Math. 149 (1): 183–217. doi:10.2307/121023.
^ "1999 Maxime Bôcher Memorial Prize" (PDF). American Mathematical Society. Retrieved August 8, 2005.
^ "The Tomalla Foundation" (PDF). Tomalla Foundation. Retrieved February 13, 2008.
^ "Shaw Laureates - 2011 - Mathematical Sciences". The Shaw Prize. Retrieved June 7, 2011.
^ "News from the National Academy of Sciences". NAS Members and Foreign Associates Elected. Retrieved May 1, 2012.
^ List of Fellows of the American Mathematical Society, retrieved 2012-11-10.

Template:Persondata

[cv-1] "Demetrios Christodoulou Curriculum Vitae" (PDF). Swiss Federal Institute of Technology Zurich. Retrieved 13 April 2010.

[genealogy-2] "Demetrios Christodoulou". Mathematical Genealogy Project. Retrieved August 8, 2005.

[memory-3] D. Christodoulou (1991). "Nonlinear nature of gravitation and gravitational-wave experiments". Phys. Rev. Lett. 67 (12): 1486–1489. Bibcode:1991PhRvL..67.1486C. doi:10.1103/PhysRevLett.67.1486. PMID 10044168.

[collapse-4] D. Christodoulou (1987). "A mathematical theory of gravitational collapse". Commun. Math. Phys. 109 (4): 613–647. Bibcode:1987CMaPh.109..613C. doi:10.1007/BF01208960.

[black-5] D. Christodoulou (1991). "The formation of black holes and singularities in spherically symmetric gravitational collapse". Commun. Pure & Appl. Math. 44 (3): 339–373. doi:10.1002/cpa.3160440305.

[variation-6] D. Christodoulou (1993). "Bounded variation solutions of the spherically symmetric Einstein-scalar field equations". Commun. Pure & Appl. Math. 46 (8): 1131–1220. doi:10.1002/cpa.3160460803.

[naked-7] D.Christodoulou (1994). "Examples of naked singularity formation in the gravitational collapse of a scalar field". Ann. Math. 140 (3): 607–653. doi:10.2307/2118619.

[instability-8] D. Christodoulou (1999). "The instability of naked singularities in the gravitational collapse of a scalar field". Ann. Math. 149 (1): 183–217. doi:10.2307/121023.

[boucher-9] "1999 Maxime Bôcher Memorial Prize" (PDF). American Mathematical Society. Retrieved August 8, 2005.

[tomalla-10] "The Tomalla Foundation" (PDF). Tomalla Foundation. Retrieved February 13, 2008.

[Shaw-11] "Shaw Laureates - 2011 - Mathematical Sciences". The Shaw Prize. Retrieved June 7, 2011.

[NAS-12] "News from the National Academy of Sciences". NAS Members and Foreign Associates Elected. Retrieved May 1, 2012.

[13] List of Fellows of the American Mathematical Society, retrieved 2012-11-10.

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v t e Shaw Prize laureates
Astronomy	Jim Peebles (2004) Geoffrey Marcy and Michel Mayor (2005) Saul Perlmutter, Adam Riess and Brian Schmidt (2006) Peter Goldreich (2007) Reinhard Genzel (2008) Frank Shu (2009) Charles Bennett, Lyman Page and David Spergel (2010) Enrico Costa and Gerald Fishman (2011) David C. Jewitt and Jane Luu (2012) Steven Balbus and John F. Hawley (2013) Daniel Eisenstein, Shaun Cole and John A. Peacock (2014) William J. Borucki (2015) Ronald Drever, Kip Thorne and Rainer Weiss (2016) Simon White (2017) Jean-Loup Puget (2018) Edward C. Stone (2019) Roger Blandford (2020) Victoria Kaspi and Chryssa Kouveliotou (2021) Lennart Lindegren and Michael Perryman (2022) Matthew Bailes, Duncan Lorimer and Maura McLaughlin (2023) Shrinivas R. Kulkarni (2024)
Life science and medicine	Stanley Norman Cohen, Herbert Boyer, Yuet-Wai Kan and Richard Doll (2004) Michael Berridge (2005) Xiaodong Wang (2006) Robert Lefkowitz (2007) Ian Wilmut, Keith H. S. Campbell and Shinya Yamanaka (2008) Douglas Coleman and Jeffrey Friedman (2009) David Julius (2010) Jules Hoffmann, Ruslan Medzhitov and Bruce Beutler (2011) Franz-Ulrich Hartl and Arthur L. Horwich (2012) Jeffrey C. Hall, Michael Rosbash and Michael W. Young (2013) Kazutoshi Mori and Peter Walter (2014) Bonnie Bassler and Everett Peter Greenberg (2015) Adrian Bird and Huda Zoghbi (2016) Ian R. Gibbons and Ronald Vale (2017) Mary-Claire King (2018) Maria Jasin (2019) Gero Miesenböck, Peter Hegemann and Georg Nagel (2020) Scott D. Emr (2021) Paul A. Negulescu and Michael J. Welsh (2022) Patrick Cramer and Eva Nogales (2023) Stuart H. Orkin and Swee Lay Thein (2024)
Mathematical science	Shiing-Shen Chern (2004) Andrew Wiles (2005) David Mumford and Wentsun Wu (2006) Robert Langlands and Richard Taylor (2007) Vladimir Arnold and Ludwig Faddeev (2008) Simon Donaldson and Clifford Taubes (2009) Jean Bourgain (2010) Demetrios Christodoulou and Richard S. Hamilton (2011) Maxim Kontsevich (2012) David Donoho (2013) George Lusztig (2014) Gerd Faltings and Henryk Iwaniec (2015) Nigel Hitchin (2016) János Kollár and Claire Voisin (2017) Luis Caffarelli (2018) Michel Talagrand (2019) Alexander Beilinson and David Kazhdan (2020) Jean-Michel Bismut and Jeff Cheeger (2021) Noga Alon and Ehud Hrushovski (2022) Vladimir Drinfeld and Shing-Tung Yau (2023) Peter Sarnak (2024)

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References