German mathematician (born 1944)
Gerhard Frey (German: [fʁaɪ] number theory . Following an original idea of Hellegouarch ,[ 1] Frey–Hellegouarch curves , a construction of an elliptic curve from a purported solution to the Fermat equation , that is central to Wiles's proof of Fermat's Last Theorem .[ 2] [ 3]
Education and career
He studied mathematics and physics at the University of Tübingen , graduating in 1967. He continued his postgraduate studies at Heidelberg University , where he received his PhD in 1970,[ 4] Habilitation in 1973. He was assistant professor at Heidelberg University from 1969–1973, professor at the University of Erlangen (1973–1975) and at Saarland University (1975–1990). Until 2009, he held a chair for number theory at the Institute for Experimental Mathematics at the University of Duisburg-Essen , campus Essen .
Frey was a visiting scientist at several universities and research institutions, including the Ohio State University , Harvard University , the University of California, Berkeley , the Mathematical Sciences Research Institute (MSRI), the Institute for Advanced Studies at Hebrew University of Jerusalem , and the Instituto Nacional de Matemática Pura e Aplicada (IMPA) in Rio de Janeiro .
Frey was also the co-editor of the journal Manuscripta Mathematica [fr ; nl ]
Research contributions
Frey at a convention in Boston, 1995 His research areas are number theory and diophantine geometry , as well as applications to coding theory and cryptography .
In 1985, Frey pointed out a connection between Fermat's Last Theorem and the Taniyama-Shimura Conjecture , and this connection was made precise shortly thereafter by Jean-Pierre Serre who formulated a conjecture
ε ε -->
{\displaystyle \varepsilon }
ε ε -->
{\displaystyle \varepsilon }
Kenneth Ribet proved enough of conjecture
ε ε -->
{\displaystyle \varepsilon }
[ 5] Andrew Wiles in the 1990s.[ 6]
In 1998, Frey proposed the idea of Weil descent attack for elliptic curves over finite fields with composite degree. As a result of this attack, cryptographers lost their interest in these curves.[ 7]
Awards and honors
Frey was awarded the Gauss medal of the Braunschweigische Wissenschaftliche Gesellschaft in 1996 for his work on Fermat's Last Theorem .[ 8] Göttingen Academy of Sciences .[ 9]
In 2006, he received the Certicom ECC Visionary Award for his contributions to elliptic-curve cryptography .[ 10]
See also
References
^ Hellegouarch, Yves (1975), "Points d'ordre 2ph sur les courbes elliptiques" (PDF) , Polska Akademia Nauk. Instytut Matematyczny. Acta Arithmetica , 26 (3): 253– 263, doi :10.4064/aa-26-3-253-263 , ISSN 0065-1036 , MR 0379507 ^ Helen G. Grundman (21 October 1999). "Are mathematicians finally satisfied with Andrew Wiles's proof of Fermat's Last Theorem? Why has this theorem been so difficult to prove?" . Scientific American. Retrieved 21 August 2016 . ^ Keith Devlin (21 July 1999). "Beyond Fermat's last theorem" . The Guardian . Retrieved 21 August 2016 . ^ Gerhard Frey at the Mathematics Genealogy Project ^ Odifreddi, Piergiorgio (2006). The Mathematical Century: The 30 Greatest Problems of the Last 100 years Princeton University Press . p. 87. ISBN 0-691-12805-7 ^ Bernstein, Richard (November 28, 1997). "Following a Proof of Fermat's Theorem to the Far Horizon of Pure Reason" . New York Times . Retrieved January 24, 2010 . ^ Hankerson, Darrel; Vanstone, Scott; Menezes, Alfred J. (2004), Guide to Elliptic Curve Cryptography , Springer, pp. 170– 171, ISBN 9780387952734 ^ Die Gauß Medaille [permanent dead link ] ^ "Member list" (PDF) . Göttingen Academy of Sciences . Retrieved January 24, 2010 .^ "Certicom ECC Visionary Award" (PDF) . Code and Cipher . 3 (1): 1. 2006. Retrieved January 24, 2010 .[permanent dead link ]
External links
International National Academics People Other
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