|Topic:||Quantum Yang-Mills theory in two dimensions: exact versus perturbative|
|Affiliation:||Michigan State University|
|Date:||Wednesday, April 6|
|Time/Room:||11:00am - 12:00pm/S-101|
The conventional perturbative approach and the nonperturbative lattice approach are the two standard yet very distinct formulations of quantum gauge theories. Since in dimension two Yang-Mills theory has a rigorous continuum limit of the lattice formulation, it makes sense to ask whether the two approaches are consistent (i.e., do perturbative computations yield asymptotic expansions for the nonperturbative ones?). In this talk, we discuss work in progress for answering this fundamental yet unaddressed question, which draws from a wide range of mathematics and topics in quantum field theory including stochastic analysis, the Batalin-Vilkovisky approach to quantization, the homotopy invariance properties of iterated integrals in the evaluation of Wilson loops, and the possible (ir)relevance of the Gribov ambiguity.