Save Big on Coursera Plus. 7,000+ courses at $160 off. Limited Time Only! Grab it Explore the construction of real-time local quantum fields in 1+1-dimensions through this Prague Mathematical Physics Seminar talk. Delve into renormalization group techniques and their relations with algebraic quantum field theory as presented by Alexander Stottmeister from Leibniz University Hannover. Learn about lattice approximations used in real-time construction, avoiding the need for imaginary-time (Euclidean) settings. Understand the operator-algebraic formulation of the Wilson and Kadanoff renormalization group. Cover topics such as conceptual approaches, dualization, Wilson triangle, GNS construction, scalar lattice fields, transverse field Ising model, dynamic content, mixed boundary conditions, learning transform, continuum limit, translation invariance, dual lattices, selfdouble formalism, scaling limit construction, ground state, chiral decomposition, conformal symmetry, orthonormal scaling, examples of WC and smooth wavelets, limit state, convergence, correlation functions, quantum simulation, nonabelian currents, and the Wilsonian framework. Gain insights into this complex field of mathematical physics over the course of 1 hour and 17 minutes. Read more