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TT: Tiefe Temperaturen

TT 25: Correlated Electrons - Poster Session

TT 25.41: Poster

Mittwoch, 29. März 2006, 14:30–18:30, P1

The spectral properties and the metal-insulator transition in the spin-fermion and s-d exchange model: equation of motion approach — •Andrey Katanin^1,2 and Valentin Irkhin² — ¹Max-Planck-Institut für Festkörperforschung, 70569, Stuttgart, Germany — ²Institute of Metal Physics, 620219 Ekaterinburg, Russia

The classical s-d exchange and the spin-fermion models are studied within the equation-of-motion approach combined with the 1/N expansion (N is the number of spin components, N=3 for physical spins). The local and magnetic splitting in the electronic spectral functions is discussed. In the d→ ∞ limit, where only local fluctuations are important, the s-d model yields a metal-insulator transition with increasing interaction strength, while the spin-fermion model yields nonvanishing spectral weight at the Fermi level at any finite interaction. For d=2 in the presence of strong ferromagnetic fluctuations the self-energy at low temperatures T has a non-Fermi liquid form in the energy window |ω |< Δ ₀ near the Fermi level, where Δ ₀ is the spin splitting for magnetically ordered ground state, and Δ ₀∝ T^1/2ln^1/2(v_F/T) in the quantum critical regime (v_F is the Fermi velocity). In the renormalized classical regime the spectral functions have a two-peak structure at finite T, which implies quasisplitting of the Fermi surface due to strong magnetic fluctuations. The role of dynamic spin fluctuations in the spin-fermion model is discussed.