Hironari Miyazawa

Hironari Miyazawa (宮沢 弘成, Miyazawa Hironari, 1927–2023) was a Japanese particle and nuclear physicist, known for his work in supersymmetry, which was first proposed by Miyazawa in 1966 as a possible symmetry between mesons and baryons.[3][4][5][6]

Hironari Miyazawa
Born1927 (1927)
Tokyo, Japan
Died2023 (aged 95–96)
NationalityJapanese
Alma materUniversity of Tokyo
Known forSupersymmetry
Goldberger–Miyazawa–Oehme sum rule[1][2]
Scientific career
FieldsPhysics
InstitutionsUniversity of Tokyo
University of Chicago
Institute for Advanced Study
University of Minnesota
Kanagawa University
Okayama Institute for Quantum Physics
Doctoral advisorTakahiko Yamanouchi
Other academic advisorsMasao Kotani
Gregor Wentzel
Enrico Fermi

Miyazawa studied physics and received his undergraduate degree in 1950 at the University of Tokyo. He joined the faculty after he received his doctorate in 1953 from the University of Tokyo, and became a full professor of physics in 1968. In 1988 he moved to the Kanagawa University and served there until 1998. He was a professor emeritus of the University of Tokyo. During these periods, he also served visiting professorships at the University of Chicago and the University of Minnesota, and directorship at the Meson Science Laboratory, the University of Tokyo.

From 1953 to 1955 he was a research associate at the Institute for Nuclear Studies, the University of Chicago, where he conducted research on theoretical nuclear physics under Gregor Wentzel and Enrico Fermi.[7] A supersymmetry relating mesons and baryons was first proposed, in the context of hadronic physics, by Miyazawa in 1966. This supersymmetry did not involve spacetime, that is, it concerned internal symmetry, and was broken badly. Miyazawa's work was largely ignored at the time.[8][9][10][11]

Hironari Miyazawa died in 2023.[12]

See also

Notes

  1. M. L. Goldberger; H. Miyazawa; R. Oehme (1955). "Application of Dispersion Relations to Pion-Nucleon Scattering" (PDF). Phys. Rev. 99 (3): 986–988. Bibcode:1955PhRv...99..986G. doi:10.1103/PhysRev.99.986.
  2. V. V. Abaev; P. Metsä; M. E. Sainio (2007). "The Goldberger-Miyazawa-Oehme sum rule revisited". Eur. Phys. J. A. 32 (3): 321–325. arXiv:0704.3167. Bibcode:2007EPJA...32..321A. doi:10.1140/epja/i2007-10377-6. S2CID 14091359.
  3. H. Miyazawa (1966). "Baryon Number Changing Currents". Prog. Theor. Phys. 36 (6): 1266–1276. Bibcode:1966PThPh..36.1266M. doi:10.1143/PTP.36.1266.
  4. H. Miyazawa (1968). "Spinor Currents and Symmetries of Baryons and Mesons". Phys. Rev. 170 (5): 1586–1590. Bibcode:1968PhRv..170.1586M. doi:10.1103/PhysRev.170.1586.
  5. P. G. O. Freund (1988). Introduction to Supersymmetry (Cambridge Monographs on Mathematical Physics). Cambridge University Press. ISBN 978-0-521-35675-6.
  6. S. Catto (2008). "Miyazawa Supersymmetry" (PDF). AIP Conf. Proc. 1011 (1): 253–258. Bibcode:2008AIPC.1011..253C. doi:10.1063/1.2932297.
  7. H. Miyazawa (2010). "Superalgebra and fermion-boson symmetry". Proc. Jpn. Acad. Ser. B. 86 (3): 158–164. Bibcode:2010PJAB...86..158M. doi:10.2183/pjab.86.158. PMC 3417842. PMID 20228617.
  8. H. Miyazawa (1966). "Baryon Number Changing Currents". Prog. Theor. Phys. 36 (6): 1266–1276. Bibcode:1966PThPh..36.1266M. doi:10.1143/PTP.36.1266.
  9. H. Miyazawa (1968). "Spinor Currents and Symmetries of Baryons and Mesons". Phys. Rev. 170 (5): 1586–1590. Bibcode:1968PhRv..170.1586M. doi:10.1103/PhysRev.170.1586.
  10. Kaku, Michio (1993). Quantum Field Theory. p. 663. ISBN 0-19-509158-2.
  11. Freund, Peter (1988-03-31). Introduction to Supersymmetry. pp. 26–27, 138. ISBN 0-521-35675-X.
  12. "The Rigakubu News, March 2023" (PDF). School of Science, The University Of Tokyo. Retrieved 14 October 2023.

Bibliography

  • S. Matsuda; T. Muta; R. Sasaki, eds. (1989). Perspectives on Particle Physics: From Mesons and Resonances to Quarks and Strings - In Commemoration of the Sixtieth Birthday of Professor H. Miyazawa. World Scientific. ISBN 978-9971-5-0589-9.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.