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Quantum Field Theory: Computing Loops
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Related lectures (29)
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Generalized Integrals: Convergence and Divergence
Explores the convergence and divergence of generalized integrals using comparison methods and variable transformations.
Flow Equations: Singular SPDEs and Quantum Field Theory
Covers recent research on singular SPDEs and their applications in quantum field theory.
Closed Surfaces and Integrals
Explains closed surfaces like spheres, cubes, and cones without covers, and their traversal and removal of edges.
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Effective Field Theory: Universal Description at Low Energies
Explores effective field theory, emphasizing its application to the standard model and the hierarchy problem.
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Explores orthogonal projection in Euclidean space, emphasizing uniqueness and calculation methods.
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Covers the Grassmann manifold and retractions on submanifolds.
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Shells I: Mechanics of Slender Structures
Covers linear and membrane theories of pressure vessels, differential geometry of surfaces, and the reduction of dimensionality from 3D to 2D.
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Explores improper integrals, convergence criteria, comparison theorems, and solid revolution.
