Some Famous Australian Physicists

Some Famous Australian Physicists

Ross H. McKenzie is a Professorial Research Fellow in Physics at the University of Queensland. He is notable

for his work in quantum many-body theory of complex materials ranging from organic superconductors to

biomolecules to rare-earth oxide catalysts.

Education

He received his BSc from Australian National University. He obtained an MA from Princeton University. He

completed his PhD at Princeton University in 1989, under Jim Sauls, with a thesis entitled: Nonlinear

interaction of zero sound with the order parameter collective modes in superfluid 3He-B.

David Blair (physicist)

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David G. Blair (b. 1946) is an Australian physicist and professor of physics at the University of Western

Australia and director of the Australian International Gravitational Research Centre. Blair works on methods

for the detection of gravity waves.[citation needed]

In 2005 - the World Year of Physics, he was awarded the Anzaas Medal. He is also involved in physics

education though the Gravity Discovery Centre in Western Australia.[citation needed]

[edit] Publications

Professor Blair is the co-author of Ripples on a Cosmic Sea: The Search for Gravitational Waves, and the editor

of the book The Detection of Gravitational Waves.[citation needed] The major highlights in his career was of course

receiving this award and he also coordinates new projects for the educational discovery centre and he’s

developed a niobium wave gravity detector and in 1984 developed the first sapphire clock – a super precise

timepiece designed for space. In 2005 ,the World Year of Physics, he was awarded the Anzaas Medal. He is

also involved in physics education though the Gravity Discovery Centre in Western Australia.

Helen Quinn

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Helen Quinn at Harvard University

Helen Quinn (born 1943) is an Australian-born particle physicist. She 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.

Working with Howard Georgi and Steven Weinberg, Helen showed 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 suggested a possible near-symmetry of the universe (now known as Peccei-Quinn symmetry) 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). This useful property is now known as quark-hadron duality.

Helen also works with elementary and high school teachers in California to make physics fun and exciting for

students. She has given public talks in various countries on "The Missing Antimatter", in which she suggests

that this area of research is promising.

Debra Searles

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A major contributor to this article appears to have a conflict of interest with its subject. It may

require cleanup to comply with Wikipedia's content policies, particularly neutral point of view. Please

discuss further on the talk page. (November 2007)

Debra Searles is the professional name for an Australian theoretical chemist whose married name is Debra

Bernhardt. She is best known for her contributions towards understanding the Fluctuation Theorem. This

theorem shows the Second law of thermodynamics and the Zeroth law of thermodynamics can be derived

mathematically rather than postulated as laws of Nature.

Contents

[hide]

· 1 Personal Profile

· 2 Research Interests

· 3 Selected Publications

· 4 See also

· 5 External links

[edit] Personal Profile

Bernhardt is an Associate Professor in the Faculty of Science at Griffith University. Her PhD studies were in

the field of quantum chemistry and her fields of research now include statistical mechanics, dynamical systems

theory, nonequilibrium fluids and molecular dynamics simulations of fluids.