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Lecture
Quantum Field Theory: Renormalization
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Quantum Field Theory: Fundamentals and Applications
Introduces Quantum Field Theory, covering paths to QFT, fields, weak interactions, and the Standard Model of particle Physics.
Quantum Field Theory: Renormalization
Covers the concept of renormalization in quantum field theory, focusing on regularization and divergences removal.
Renormalization and Beta Function
Explores renormalization, beta function implications, and perturbation theory in quantum field theory.
Quantum Field Theory: AQFT
Explores advanced Quantum Field Theory topics, including perturbativity, renormalization, and asymptotic freedom, with a focus on Amplitudes and Correlators.
Trans-series in Quantum Field Theory: SVZ Approach and Applications
Discusses the SVZ sum rules and their application in quantum field theory, focusing on trans-series and non-perturbative corrections.
Renormalization Program: Fixed Points and Couplings
Explores fixed points and couplings in the renormalization program, revealing how complex low-energy phenomena arise from simple dynamics.
Statistical Field Theory
Covers the basics of statistical field theory, focusing on Ising models and the Ginsburg-Landau theory.
Scaling of Free Energy
Explores the scaling of free energy, Renormalization Group flow, Ising model, critical exponents, and scaling relations.
Quantum Effective Action
Explores the quantum effective action, its role in perturbation theory, and the organization of correlators in momentum space.
Fermion Propagator: One-loop Structure of QED
Covers the one-loop structure of Quantum Electrodynamics (QED) focusing on the vertex and the one-loop structure of QED.
