Abstract
I: THEORY OF CRITICAL PHENOMENA: Introduction to critical phenomena Ginzburg-Landau theory Critical exponents Universality, standard models and solvable models Scaling The renormalization group Critical dynamics More complex magnetic systems Dilution, percolation and random fields II: THE TECHNIQUE OF THERMAL NEUTRON SCATTERING AND ITS APPLICATION TO INVESTIGATE CRITICAL PHENOMENA: Basic properties of thermal neutrons Correlation function formalism Bragg scattering Measurement of critical dynamics III: MEASUREMENTS OF CRITICAL SCATTERING: Two- and one-dimensional systems Three-dimensional Ising systems Other simple systems in three dimensions Multicritical points Critical phase transitions in magnetic metals Critical scattering investigations of dilution, percolation and random-field effects.
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