Borel Resummation: Techniques and Applications

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Explores Quantum Field Theory II, emphasizing Gauge Theories, including QED, fermion masses, vector bosons, and the Higgs mechanism.

Explores the quantum effective action, its role in perturbation theory, and the organization of correlators in momentum space.

Covers the study of free particle quantum mechanics in AdS and the State-Operator Correspondence in AdS.

Explores effective quantum field theory, the Standard Model's precision, and the search for new physics beyond it.

Explores correlation functions, Gaussian integrals, and perturbation theory in quantum field theory.

Covers the basics of time-dependent perturbation theory in quantum mechanics.

Explores Feynman diagrams in thermal correlation functions and quantum field theory.

Explores Euclidean path integrals in Quantum Field Theory and Perturbation Theory using Feynman diagrams.

Explores the verification of the standard model through scattering experiments and the implications of minimal dark matter models.

Covers the basics of statistical field theory, focusing on Ising models and the Ginsburg-Landau theory.