Lectures related to Supersymmetry: Lagrangians and Renormalizable Theories

Supersymmetry: Motivations and Concrete Applications

Explores the motivations and applications of supersymmetry, including string theory and flavor symmetries, culminating in the Coleman-Mandula theorem.

Effective Field Theory: Universal Description at Low Energies

Explores effective field theory, emphasizing its application to the standard model and the hierarchy problem.

Renormalization Group in Field Theory

Explores the Renormalization Group in field theory, discussing scaling functions, critical exponents, and Gaussian fixed points.

Beyond the Standard Model: Effective Quantum Field Theory

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

Supersymmetry: Soft Terms and EW Symmetry Breaking

Covers soft terms, A-terms, and EW symmetry breaking in supersymmetry.

Cosmological Puzzles: Dark Matter and Energy

Explores fundamental cosmological puzzles related to dark matter and energy.

Crunching Dilaton, Hidden Naturalness

Explores the naturalness problem in UV completions of the Standard Model and proposes a mechanism related to the Higgs mass determining the universe's expansion.

Flow Equations: Singular SPDEs and Quantum Field Theory

Covers recent research on singular SPDEs and their applications in quantum field theory.

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.

Supersymmetry: Lecture 5

Explores supersymmetry breaking, Goldstinos, Nambu-Goldstone theorem, and mediation implications in the MSSM.

The Importance of Theory

Emphasizes the importance of theory in academic research and its impact on shaping research outcomes.

Supersymmetry: Lecture 4

Discusses supersymmetry gauge, superfields, anomalous terms, and flat directions in 4D space.

Quantum Field Theory: Fundamentals and Applications

Introduces Quantum Field Theory, covering paths to QFT, fields, weak interactions, and the Standard Model of particle Physics.

Supersymmetry: Required SUSY Mass and Higgs Quartic Corrections

Covers the required SUSY mass for a 125 GeV Higgs boson and 1-loop corrections at the LHC, as well as gauge coupling unification and flavor violation.

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.

Axion Kinetic Misalignment and Baryogenesis

Explores new cosmological dynamics of the axion, explaining dark matter and baryon asymmetry.

Supersymmetry: Massless Multiplets and Chiral Multiplets

Explores massless and chiral multiplets in supersymmetry, quantum field algebra, and superspace structure.

Statistical Field Theory

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

Quantum Field Theory: Fermions and Grassmann Numbers

Explores quantum field theory, focusing on fermions and Grassmann numbers in the path integral formalism.

Quantum Field Theory: Renormalization

Covers the concept of renormalization in quantum field theory, focusing on regularization and divergences removal.