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Stephen Parke

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Stephen Parke
Born
NationalityNew Zealand
United Kingdom
United States
Alma materEdmund Campion College, Gisborne
St Peter's College, Auckland
University of Auckland
Harvard University
Known forParke–Taylor amplitudes, analytic understanding of MSW effect and top quark spin correlations
Scientific career
FieldsTheoretical physics
InstitutionsStanford Linear Accelerator Center
Fermilab
Doctoral advisorSidney Coleman

Stephen Parke is a New Zealand physicist. He is a distinguished scientist and former head of the Theoretical Physics Department at the Fermi National Accelerator Laboratory (Batavia, Illinois).[1]

Born in Gisborne, New Zealand, Parke attended Edmund Campion College, Gisborne and St Peter's College, Auckland. He did his undergraduate studies, mathematics and physics, at the University of Auckland in New Zealand where his mentor was Dan Walls. He obtained a Fulbright Travel Grant and was awarded a Frank Knox Memorial Fellowship to attend graduate school at Harvard University. He was a graduate student of Sidney Coleman, obtaining a PhD in theoretical particle physics in 1980. He held a postdoctoral fellowship at the Stanford Linear Accelerator Center (1980–1983) collaborating with Sidney Drell before moving to the Fermi National Accelerator Laboratory as an Associate Scientist.[2]

Field of work

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He is an originator of Parke–Taylor amplitudes, which he developed with his colleague, Tomasz Taylor.[3] Parke-Taylor amplitudes represent a new approach to computing scattering amplitudes in quantum chromodynamics using symmetry methods such as supersymmetry. Parke is also an expert on neutrino physics[4] as well as the physics of the top quark.[citation needed]

See also

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References

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  1. ^ "Rutherford explanation this week". University of Canterbury. 26 May 2008.
  2. ^ "Stephen J. Parke". inspirehep.net. Retrieved 2 February 2023.
  3. ^ Wolchover, Natalie (17 September 2013). "A Jewel at the Heart of Quantum Physics". Quanta Magazine.
  4. ^ Wolchover, Natalie (13 November 2019). "Neutrinos Lead to Unexpected Discovery in Basic Math". Quanta Magazine. Retrieved 2 February 2023.
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