V. E. Rochev
Published 1996-06-25, updated 1997-05-15Version 2
A new method for non-perturbative calculation of Green functions in quantum mechanics and quantum field theory is proposed. The method is based on an approximation of Schwinger-Dyson equation for the generating functional by exactly soluble equation in functional derivatives. Equations of the leading approximation and the first step are solved for $\phi^4_d$-model. At $d=1$ (anharmonic oscillator) the ground state energy is calculated. The renormalization program is performed for the field theory at $d=2,3$. At $d=4$ the renormalization of the coupling involves a trivialization of the theory.
Comments: 13 pages, Plain LaTex, no figures, some discussion of results for anharmonic oscillator and a number of references are added, final version published in Journal of Physics A
Journal: J.Phys.A30:3671-3680,1997
Covariant approximation schemes for calculation of the heat kernel in quantum field theory
Calculation of the multiplicative anomaly
Casimir energy and dilute dielectric ball
