George Sterman

George F. Sterman
Born June 2, 1946 (1946-06-02) (age 65)
Residence New York, United States
Nationality  United States
Fields Physics
Institutions C. N. Yang Institute for Theoretical Physics
Stony Brook University
Alma mater University of Chicago
University of Maryland
Doctoral students Claudio Coriano, Ghanashyam Date, Vittorio Del Duca, Hsiang-nan Li, Lorenzo Magnea, Sunil Mukhi, Ashoke Sen, Carola Berger, Tibor Kucs, Ilmo Sung, Leandro G. Almeida
Known for Sterman-Weinberg Jets
proof of factorization theorems
Resummation
Notable awards J.J. Sakurai Prize for Theoretical Particle Physics (2003)

George Franklin Sterman (born June 2, 1946)[1] is an American theoretical physicist and the Director of the C. N. Yang Institute for Theoretical Physics at Stony Brook University where he holds the rank Distinguished Professor.

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Background

George Sterman received an A.B. from the University of Chicago in 1968. He earned his Ph.D. from the University of Maryland in 1974, and held research associate positions at the University of Illinois (1974–1976), Stony Brook University (1976–1978) and the Institute for Advanced Study (1978–1979), before joining the faculty of the C.N. Yang Institute for Theoretical Physics at Stony Brook in 1979. He became director of the Institute in 2001.[2]

Research

George Sterman's research focuses on quantum field theory and its applications in quantum chromodynamics.[3] With Steven Weinberg he proved the infrared finiteness of jet cross sections, thus proving that perturbation theory is a safe method in that regime.[2] He also worked on reformulation and proof of factorization theorems with Stephen Libby, John Collins and Davison E. Soper.[2] He authored a textbook entitled An Introduction to Quantum Field Theory in 1993.[4] As of 2010 he has over 190 papers listed as published on HEP-SPIRES.

George Sterman was awarded the 2003 J.J. Sakurai Prize for Theoretical Particle Physics "For developing concepts and techniques in QCD, such as infrared safety and factorization in hard processes, which permitted precise quantitative predictions and experimental tests, and thereby helped to establish QCD as the theory of the strong interactions."[2] He received a Guggenheim Fellowship in 1985, is a Fellow of the American Physical Society and has served as an Associate Editor for Physical Review Letters.[2]

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