Skip to main content
Graph
Search
fr
|
en
Login
Search
All
Categories
Concepts
Courses
Lectures
MOOCs
People
Practice
Publications
Startups
Units
Show all results for
Home
Lecture
Effective Field Theory: Universal Description at Low Energies
Graph Chatbot
Related lectures (22)
Previous
Page 2 of 3
Next
Quantum Field Theory: Fermions and Grassmann Numbers
Explores quantum field theory, focusing on fermions and Grassmann numbers in the path integral formalism.
Effective Field Theory: Testing Weak Interactions
Explores effective field theory for testing weak interactions and parity violation through forward-backward asymmetry.
Scaling & Renormalization in Statistical Mechanics
Explores scaling and renormalization in statistical mechanics, emphasizing critical points and invariant properties.
Quantum Chaos and Scrambling
Explores the concept of scrambling in quantum chaotic systems, connecting classical chaos to quantum chaos and emphasizing sensitivity to initial conditions.
Goldstone Bosons: Higgs Mechanism
Explores Goldstone bosons and the Higgs mechanism, revealing how spontaneous symmetry breaking generates mass for gauge bosons.
Renormalization & Scaling
Explores renormalization, scaling, critical points, exponents, and phase transitions in conformal field theory and quantum gravity.
Quantum Field Theory: Renormalization
Covers the concept of renormalization in quantum field theory, focusing on regularization and divergences removal.
Block Pulled by a Spring: Dynamics
Covers the dynamics of a block connected to a spring, deriving equations of motion and solving for key time points.
Statistical Field Theory
Covers the basics of statistical field theory, focusing on Ising models and the Ginsburg-Landau theory.
Introduction to Plasma Physics
Introduces the basics of plasma physics, covering collective behavior, Debye length, and plasma conditions.
