Ivan G. Avramidi
Published 1995-09-14Version 1
A short informal overview about recent progress in the calculation of the effective action in quantum gravity is given. I describe briefly the standard heat kernel approach to the calculation of the effective action and discuss the applicability of the Schwinger - De Witt asymptotic expansion in the case of strong background fields. I propose a new ansatz for the heat kernel that generalizes the Schwinger - De Witt one and is always valid. Then I discuss the general structure of the asymptotic expansion and put forward some approximate explicitly covariant methods for calculating the heat kernel, namely, the high-energy approximation as well as the low-energy one. In both cases the explicit formulae for the heat kernel are given.
Comments: 21 pages, Plain TeX, 52 KB, no figures
Covariant methods for the calculation of the effective action in quantum field theory and investigation of higher-derivative quantum gravity
Effective actions with fixed points, (error in derivation of coefficient corrected)
Effective Actions for Spin 0,1/2,1 in Curved Spacetimes
