Susumu Okubo

Susumu Okubo (大久保 進, Ōkubo Susumu, 2 March 1930 – July 17, 2015)[1] was a Japanese theoretical physicist at the University of Rochester. Ōkubo worked primarily on elementary particle physics. He is famous for the Gell-Mann–Okubo mass formula for mesons and baryons in the quark model; this formula correctly predicts the relations of masses of the members of SU(3) multiplets in terms of hypercharge and isotopic spin.[2][3]

Susumu Okubo
Born(1930-03-02)March 2, 1930
DiedJuly 17, 2015(2015-07-17) (aged 85)
NationalityJapanese, American
Alma materUniversity of Tokyo
University of Rochester
Known forGell-Mann–Okubo mass formula
Okubo algebra
OZI rule
Spouse(s)Mary Ōkubo
Children2
Scientific career
FieldsElementary particle physics
InstitutionsUniversity of Rochester
Doctoral advisorDavid Feldman

Ōkubo began study at the University of Tokyo in 1949 and received his bachelor's degree there in 1952. He became a graduate student at the University of Rochester in 1954, where he earned his PhD in 1958 with David Feldman as thesis advisor.[1] Afterwards, he was a postdoc in 1959/60 at the University of Naples, in 1960/61 at CERN, and then in 1962 began researching again at the University of Rochester, where he became a professor in 1964 and retired in 1996 as an emeritus professor.

In 2005 he received the Sakurai Prize from the American Physical Society; "For groundbreaking investigations into the pattern of hadronic masses and decay rates, which provided essential clues into the development of the quark model, and for demonstrating that CP violation permits partial decay rate asymmetries".[4]

In 1976 Ōkubo received the Nishina Memorial Prize in Japan and in 2006 the Wigner Medal. In 1966 he was a Guggenheim Fellow and in 1969 a Ford Fellow. He is a member of the American Physical Society and the American Mathematical Society.

Ōkubo died in July 2015, and is survived by his wife, Mary Ōkubo, daughters Sylvia Josh and Susan Sebring, granddaughters Jessica Josh and Catherine Josh.[1]

Works

  • Introduction to Octonion and Other Non-Associative Algebras in Physics. Cambridge University Press, 1995

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.