Breakdown of Landau Fermi liquid properties in the 2D Boson-Fermion model
Abstract
We study the normal state spectral properties of the fermionic excitations in the Boson-Fermion model. The fermionic single particle excitations show a flattening of the dispersion as the Fermi vector k_F is approached from below, forshadowing a Bogoliubov spectrum of a superconducting ground state. The width of the quasiparticle excitations near k_F increases monotonically as the temperature is lowered. In the fermionic distribution function this temperature dependence is manifest in a strong modification of n( k) in a small region below k_F, but a nearly T independant n( k_F).
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