Rod Crewther

Rodney James Crewther (born 1945) is a physicist, notable in the field of gauge field theories.

Rod Crewther
Born1945
NationalityAustralian
Alma materCalifornia Institute of Technology
Melbourne University
Known forGauge field theory
AwardsFulbright scholarship
Scientific career
FieldsPhysicist
InstitutionsUniversity of Adelaide
CERN
Cornell University
Fermi National Accelerator Laboratory
University of Berne
University of Dortmund
Max Planck Institute
Doctoral advisorMurray Gell-Mann
InfluencesRichard Feynman

Education

After gaining his MSc at Melbourne University, Crewther was awarded a Fulbright scholarship to the California Institute of Technology. He studied under the tutelage of Nobel prizewinner Murray Gell-Mann and completed his doctorate, in 1971, after successfully defending his dissertation against the renowned theorist Richard Feynman. His thesis was entitled Spontaneous Breakdown of Conformal and Chiral Invariance.[1]

Career

After his PhD, he held postdoctoral appointments at Cornell University in Ithaca, New York and the Fermi National Accelerator Laboratory in Batavia, Illinois. Subsequently, he spent twelve years in Europe, six of them as a Staff Member of the European Laboratory for Particle Physics (CERN) in Geneva, and the remainder as a Research Associate at the University of Berne, University of Dortmund, and at the Max Planck Institute in Munich. Crewther was then appointed as a senior lecturer in physics at the University of Adelaide.

Having a keen interest in politics, Crewther is vice-president of the University of Adelaide branch of the National Tertiary Education Union.[2] He also served on the University Council.[3]

Teaching

He designed the honours physics course "Gauge Field Theories." He also lectures on Quantum Mechanics III, Advanced Dynamics and Relativity, and Honours Quantum Field Theory. Although he no longer teaches the courses Quantum Mechanics II, Honours Relativistic Quantum Mechanics and Particle Physics, and Classical Fields and Mathematical Methods, his notes are followed by his successors.

Dr Crewther also teaches a 4-week module of Physics 1B at the University of Adelaide where he hosts mechanics lectures that focus on the centre of mass, rotation, angular momentum and gyroscopic precession.[4]

Notes and references
  1. http://www.genealogy.math.ndsu.nodak.edu/id.php?id=102481
  2. "Officers and Staff - University of Adelaide". National Tertiary Education Union. Retrieved 15 December 2016.
  3. "University Council Photographs". University of Adelaide Archives. Retrieved 15 December 2016.
  4. https://myuni.adelaide.edu.au/webapps/blackboard/execute/modulepage/view?course_id=_326061_1&cmp_tab_id=_143740_1&mode=view
gollark: > I never tried it. It's nice that it has these safety features but I prefer C++ still. > If I want to be sure that my program is free of bugs, I can write a formal specification and do a > correctness proof with the hoare calculus in some theorem proofer (People did that for the seL4 microkernel, which is free from bugs under some assumptions and used in satellites, nuclear power plants and such)Didn't doing that for seL4 require several hundred thousand lines of proof code?
gollark: Most countries have insanely convoluted tax law so I assume it's possible.
gollark: Hmm, so you need to obtain a hypercomputer of some sort to write your tax forms such that they cannot plausibly be checked?
gollark: What if it's somehow really easy to find *a* solution to something, but not specific ones, and hard to check the validity of a specific maybe-solution? Is that possible?
gollark: Er, maybe?
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