CONDENSED MATTER THEORY GROUP: PROFESSOR CATHERINE STAMPFL

Geoffrey Cousland

CONTACT DETAILS

School of Physics A28, Room 417/8
The University of Sydney, Australia
Phone: +61 2 911 40998
Fax: +61 2 935 17726
Email: g.cousland@physics.usyd.edu.au

 

RESEARCH INTERESTS

Investigation of the surface and materials properties of novel doped zirconia- and zirconium oxynitride-based materials

CODES

RECENT PUBLICATIONS

  1. G.P. Cousland, A.E. Smith, J. Riley, S. Homolya, A. Stampfl, J. King-Lacroix,, Comparison between Calculated and Measured Photoelectron Diffraction Patterns for Cu(001), Proceedings of Australian Institute of Physics 32nd Annual Condensed Matter and Materials Meeting, 2008, Wagga Wagga. [ Reprint Available from: http://www.aip.org.au/wagga2008]
  2. Low Energy Photoelectron Diffraction at High Angular Resolution as a Surface Structure Probe, G.P. Cousland, A.E. Smith, J.D. Riley and A.P.J. Stampfl, Proceedings of Australian Institute of Physics 33rd Annual Condensed Matter and Materials Meeting, 2009, Wagga Wagga. [ Reprint Available from: http://www.aip.org.au/wagga2009]
  3. G.P. Cousland, A.E. Smith, J.D. Riley, A.P.J. Stampfl, Low energy photoelectron diffraction analysis at high angular resolution of Cu and Mn/Cu surfaces, J. Appl. Phys. 106, 093510 (2009)
  4. G.P. Cousland, R.A. Mole, M.M. Elcombe, X.Y. Cui, A.E. Smith, C.M. Stampfl, A.P.J. Stampfl, Investigation of the vibrational properties of cubic yttria-stabilized zirconia: A combined experimental and theoretical study, J. Phys. Chem. Solids 75, 351 (2014).
  5. G. Cousland, X. Y. Cui, A. E. Smith, C. M. Stampfl, L. Wong, M. Tayebjee, D. Yu, G. Triani, H.-J. Ruppender, L.-Y. Jang and A. P. J. Stampfl, A medium energy photoemission and ab-initio investigation of cubic yttria-stabilised zirconia, J. Appl. Phys. 115, 143502 (2014).
  6. G. Cousland, X. Y. Cui, S. Ringer, A. E. Smith, A. P. J. Stampfl and C. Stampfl, Electronic and vibrational properties of yttria-stabilised zirconia from first-principles for 10-40 mol % Y2O3, accepted in J. Phys. Chem. Solids. 75, 1252 (2014).

 

 

 

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