C. R. Hagen
| Carl Richard Hagen | |
|---|---|
 |
|
| Born |
February 2, 1937 Chicago, Illinois |
| Residence | Pittsford, New York |
| Fields | Particle physics |
| Institutions |
University of Rochester Imperial College London International Centre for Theoretical Physics American University of Beirut |
| Alma mater |
MIT (BS, MS, PhD) Luther North High School - Chicago |
| Doctoral advisor | Kenneth A. Johnson, MIT |
| Known for | Quantum field theory, Standard Model, Symmetry breaking, Higgs boson, Higgs mechanism, Galilean relativity, Special relativity, Chern–Simons, Aharonov–Bohm effect, Casimir effect, Mathematical physics |
| Notable awards | Sakurai Prize (2010), APS Fellow |
Carl Richard Hagen (/ˈheɪɡən/; born 2 February 1937) is a professor of particle physics at the University of Rochester. He is most noted for his contributions to the Standard Model and Symmetry breaking as well as the 1964 co-discovery of the Higgs mechanism and Higgs boson with Gerald Guralnik and Tom Kibble (GHK). As part of Physical Review Letters 50th anniversary celebration, the journal recognized this discovery as one of the milestone papers in PRL history. While widely considered to have authored the most complete of the early papers on the Higgs theory, GHK were controversially not included in the 2013 Nobel Prize in Physics.
In 2010, Hagen was awarded The American Physical Society's J. J. Sakurai Prize for Theoretical Particle Physics for the "elucidation of the properties of spontaneous symmetry breaking in four-dimensional relativistic gauge theory and of the mechanism for the consistent generation of vector boson masses".
Professor Hagen's research interests are in the field of theoretical high-energy physics, primarily in the area of quantum field theory. This includes the formulation and quantization of higher spin field theories within the context of Galilean relativity as well as that of Special relativity. Work in recent years has been concerned with such topics as the soluble two dimensional theories, Chern–Simons field theory, the Aharonov–Bohm effect, and the Casimir effect. In 2015, Hagen authored a paper that found the classic 17th century Wallis formula for π while calculating energy levels of the Hydrogen atom - the first paper to derive π from physics and quantum mechanics.
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