This volume is a natural continuation of the book Algebraic Renormalization, Perturbative Renormalization, Symmetries and Anomalies, by O Piguet and S P Sorella, with the aim of applying the algebraic renormalization procedure to gauge field models quantized in nonstandard gauges. The main ingredient of the algebraic renormalization program is the quantum action principle, which allows one to control in a unique manner the breaking of a symmetry induced by a noninvariant subtraction scheme. In particular, the volume studies in-depth the following quantized gauge field models: QED, Yang–Mills theories and topological models (the Chern–Simons and the BF model) in the context of axial-like gauges.Contents:Basics of Perturbative Quantum Field TheoryPole Prescriptions, Covariant and Noncovariant CasesQuantum Electrodynamics (QED)Noncovariant Gauges in Pure Yang–Mills TheoryTopological Field Models Quantized in the Axial GaugeChern–Simons Theory on Manifolds with BoundaryReadership: Students and researchers in quantum field theory and high energy physicists.Key Features:Presents a complete and up-to-date coverage of optimal crossover designs under different models and situationsIncludes detailed proofs of all the major resultsProvides many examples of optimal designsIncludes a comprehensive list of references