I. M. Suslov
Published 1999-12-08Version 1
Asymptotically exact results are obtained for the average Green function and the density of states in a Gaussian random potential for the space dimensionality d=4-epsilon over the entire energy range, including the vicinity of the mobility edge. For N\sim 1 (N is an order of the perturbation theory) only the parquet terms corresponding to the highest powers of 1/epsilon are retained. For large N all powers of 1/epsilon are taken into account with their coefficients calculated in the leading asymptotics in N. This calculation is performed by combining the condition of renormalizability of the theory with the Lipatov asymptotics.
Comments: 11 pages, PDF
Journal: Zh.Eksp.Teor.Fiz. 111 (1997) 1896-1914
Density of States of an Electron in a Gaussian Random Potential for (4-epsilon)-dimensional Space
Development of (4-epsilon)-dimensional theory for the density of states near the Anderson transition
Density of States near the Anderson Transition in a Four-dimensional Space. Renormalizable Models
