These proceedings honor the long careers in theoretical particle physics of B H J McKellar and G C Joshi, who established theoretical particle physics research at the University of Melbourne. Sample Chapter(s). Chapter 1: Three Nucleon Forces and Nuclear Structure (356 KB). Contents: Three Nucleon Forces and Nuclear Structure (B R Barrett); How Magnetic is the Neutrino? (N F Bell); Anions and Anomalies (M Bawin et al.); Property Values (R Delbourgo); Interacting Bose Gas Confined by an External Potential (G Gnanapragasam & M Das); Variation of the Fundamental Constants: Theory and Observations (V V Flambaum); Mirror Dark Matter (R Foot); Analytic, Non-Perturbative, Almost-Exact QED: The Two-Point Function (H M Fried); Sterile Neutrinos in a 6 x 6 Matrix Approach (T Goldman); Particle Physics in Condensed Matter (C Hamer); CP Violation (X-G He); Quantum Computation in Silicon OCo Device Modeling, Transport and Fault-Tolerance (L C L Hollenberg); Born Reciprocity in Two Dimensions: Quaplectic Group Symmetry, Branching Rules and State Labelling (P D Jarvis); QuarkOCoLepton Symmetry and Quartification in Five Dimensions (K L McDonald); MSW in Reverse, What SNO Says About PseudoOCoDirac Neutrinos (G J Stephenson, Jr); Looking Forward to the Large Hadron Collider (G N Taylor); Some Recent Lattice QCD Results from the CSSM (S Boinpolli et al.). Readership: Physicist and academic.

This book presents a comprehensive review of a diverse range of subjects in physics written by physicists who have all been taught by or are associated with K C Hines. Ken Hines was one great mentor with far-reaching influence on his students who later went on to make outstanding contributions to physics in their careers. The papers provide significant insights into statistical physics, plasma physics from fluorescent lighting to quantum pair plasmas, cosmic ray physics, nuclear reactions, and many other fields.