Helen Quinn

Helen Quinn

Helen Quinn at Harvard University
Born (1943-05-19) May 19, 1943
Melbourne, Australia
Nationality American
Alma mater Stanford University, Ph.D., 1967, postdoctoral work at DESY
Occupation Particle physicist
Employer Harvard University, Stanford Linear Accelerator Center
Board member of Board on Science Education of the National Research Council (of NAS)

Helen Rhoda Arnold Quinn (born 19 May 1943 in Melbourne) is an Australian-born particle physicist whose contributions to the search for a unified theory for the three types of particle interactions (strong, electromagnetic, and weak) were recognized by several honors including the Dirac Medal of the International Center for Theoretical Physics.


Quinn went to school in Victoria, Australia and entered college at the University of Melbourne before moving to the USA and transferring to Stanford University. She received her Ph.D. from Stanford in 1967, at a time when less than 2% of physicists were women. She did her postdoctoral work at the DESY (the German Synchrotron Laboratory) in Hamburg, Germany. She next spent seven years at Harvard University before returning to Stanford where she is now a professor of physics at the Stanford Linear Accelerator Center.

Contributions to Physics

Working with Howard Georgi and Steven Weinberg, Quinn showed[1] how the three types of particle interactions (strong, electromagnetic, and weak), which look very different as we see their impact in the world around us, become very similar in extremely high-energy processes and so might be three aspects of a single unified force. She also suggested a possible near-symmetry of the universe (now known as Peccei–Quinn symmetry)[2] to explain how strong interactions can maintain CP-symmetry (the symmetry between matter and antimatter) when weak interactions do not. One consequence of this theory is a particle known as the axion which has yet to be observed but is one candidate for the dark matter that pervades the universe.

She showed how the physics of quarks can be used to predict certain aspects of the physics of hadrons (which are particles made from quarks) regardless of the details of the hadron’s structure (with Enrico Poggio and Steven Weinberg).[3] This useful property is now known as quark-hadron duality.

She has given public talks in various countries on "The Missing Antimatter", in which she suggests that this area of research is promising.

Quinn has had a long term engagement in education issues. In California, she works with elementary and high school teachers to make physics fun and exciting for students.[4] She chairs the Board on Science Education of the National Research Council (of NAS) and has served on a number of its studies. She chaired the NRC study committee that developed “A Framework for K-12 Science Education” (NRC, 2012) to guide the development of multi-state standards for science education. These "Next Generation Science Standards" were released in final form in April, 2013.


Her physics career was as follows:[5]




  1. Georgi, H.; Quinn, H.R.; Weinberg, S. (1974). "Hierarchy of interactions in Unified Gauge Theories". Physical Review Letters. 33 (7): 451–4. Bibcode:1974PhRvL..33..451G. doi:10.1103/PhysRevLett.33.451.
  2. Peccei, R.D.; Quinn, H.R. (1977). "CP conservation in the presence of pseudoparticles". Physical Review Letters. 38 (25): 1440–3. Bibcode:1977PhRvL..38.1440P. doi:10.1103/PhysRevLett.38.1440.
  3. Poggio, E.C.; Quinn, H.R.; Weinberg, S. (1976). "Smearing method in the quark model". Physical Review D. 13 (7): 1958–1968. Bibcode:1976PhRvD..13.1958P. doi:10.1103/PhysRevD.13.1958.
  4. "Contemporary Physics Education Project". Retrieved 12 June 2014.
  5. Hellen R. Quinn. CWP, UCLA, and UC Regents. 1995 - 1998.
  6. It's an Honour
This article is issued from Wikipedia - version of the 10/18/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.