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W2018335761 abstract "The self-energy, spectral functions and susceptibilities of 2D systems with strong ferromagnetic fluctuations are considered within the quasistatic approach. The self-energy at low temperatures T has a non-Fermi liquid form in the energy window w<Delta near the Fermi level, where Delta is the ground-state spin splitting for magnetically ordered ground state, and Delta ~ T^(1/2) ln^(1/2)(vF/T) in the quantum critical regime (vF is the Fermi velocity). Spectral functions have a two-peak structure at finite T above the magnetically ordered ground state, which implies quasi-splitting of the Fermi surface in the paramagnetic phase in the presence of strong ferromagnetic fluctuations. The triplet pairing amplitude in the quasistatic approximation increases with increasing correlation length; at low temperatures T<<Delta the vertex corrections become important and the Eliashberg approach is not justified. The results for the spectral properties and susceptibilities in the quantum critical regime near charge- (spin-) instabilities with large enough correlation length xi>>(T/vF)^(-1/3) are obtained." @default.
W2018335761 created "2016-06-24" @default.
W2018335761 creator A5004802223 @default.
W2018335761 date "2005-07-08" @default.
W2018335761 modified "2023-10-18" @default.
W2018335761 title "Electronic self-energy and triplet pairing fluctuations in the vicinity of a ferromagnetic instability in two-dimensional systems: Quasistatic approach" @default.
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W2018335761 doi "https://doi.org/10.1103/physrevb.72.035111" @default.
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