Gauge Dependence and Dyson-Schwinger Equations II

We aim at an understanding of gauge invariance in off-shell Green functions. Modern algebraic algebraic methods allow to attack the problem via the study of co-ideals in Hopf algebras. Green functions appear as solutions to fixed point equations in the Hochschild cohomology of these algebras and define in this manner the Dyson Schwinger equations. We concentrate our study on 4- and higher n-point functions, with external ghost-, gauge- and matter fields, in covariant linear and non-linear gauges and varying renormalization schemes. Using Lagrange multipliers such questions can also be studied for field theories in higher even dimensions and in the context of the operator product expansions.We will investigate universal properties across dimensions of such theories as suggested by the 1/N expansion, answering questions on relations to conformal field theory, the bootstrap and the a-Theorem.

Principal investigators
Kreimer, Dirk Prof. (Details) (Theoretical Physics / Mathematical Physics)

DFG: Sachbeihilfe

Duration of project
Start date: 01/2020
End date: 12/2021

Research Areas
Mathematics, Nuclear and Elementary Particle Physics, Quantum Mechanics, Relativity, Fields

Last updated on 2023-27-07 at 06:30