Reference Data
Review of Particle Physics (Physical Constants, Atomic & Nuclear Properties, Astrophysics & Cosmology). The Particle Data Group (PDG) provides a comprehensive summary of Particle Physics and related areas of Cosmology.
Bookshelf
“A mind needs books as a sword needs a whetstone, if it is to keep its edge.” ― George R.R. Martin, A Game of Thrones.
"The world is a book, and those who do not travel read only one page" ― Saint Augustine
Modern Condensed Matter Physics. Steven M. Girvin and Kun Yang, Cambridge University Press, 2019.
Quantum Mechanics. Non-relativistic Theory. L. D. Landau and E. M. Lifshitz, Pergamon Press, 1965.
CP violation without strangeness : electric dipole moments of particles, atoms, and molecules.
I. B. Khriplovich and Steve Keith Lamoreaux, Springer-Verlag, 1997Quantum field theory and critical phenomena, 4th ed. Jean Zinn-Justin, Oxford University Press, 2002.
Physics on Your Feet: Berkeley Graduate Exam Questions, 2nd ed. Dmitry Budker and Alexander O. Sushkov, Oxford University Press, 2021. ISBN: 9780198842378
Gordon Godfrey Workshops, School of Physics, UNSW
Gordon Godfrey Workshop on Spins, Topology and Strong Electron Correlations, 20 - 24 November 2023
Gordon Godfrey Workshop on Spins, Topology and Strong Electron Correlations, 21 - 25 November 2022
Gordon Godfrey Workshop on Spins, Topology and Strong Electron Correlations, 25 - 29 November 2019
Gordon Godfrey Workshop on Spins and Strong Electron Correlations, 30 October - 3 November 2017
Gordon Godfrey Workshop on Spins and Strong Electron Correlations, 2 - 6 November 2015
Gordon Godfrey Workshop on Spins and Strong Electron Correlations, 25 - 29 November 2013
Gordon Godfrey Workshop on Spins and Strong Correlations, 24 - 28 October 2011
Gordon Godfrey Workshop on Spins and Strong Correlations, 26 - 29 October 2009
Gordon Godfrey Workshop on Strong Electron Correlations, 24 - 27 September 2007
ARC Centre of Excellence in Future Low-Energy Electronics Technology - FLEET
FLEET was pursuing the following research themes to develop systems in which electrical current can flow with near-zero resistance: Topological materials, Exciton superfluids, Light-transformed materials.
FLEET - ARC Centre of Excellence in Future Low-Energy Electronics Technologies
ORCID iD https://orcid.org/0000-0001-7828-5569
Web of Science ResearcherID AAZ-5862-2020
Scopus ID 7006068987