Data di Pubblicazione:
2002
Citazione:
Low-energy scales and temperature-dependent photoemission of heavy fermions / T. Costi, N. Manini. - In: JOURNAL OF LOW TEMPERATURE PHYSICS. - ISSN 0022-2291. - 126:3-4(2002), pp. 835-866.
Abstract:
We solve the S = 1/2 Kondo lattice model within the dynamical mean field theory. Detailed predictions are made for the dependence of the lattice Kondo resonance and the conduction electron spectral density on temperature and band filling, n(c). Two low-energy scales are identified in the spectra: a renormalized hybridization pseudogap scale T*, which correlates with the single-ion Kondo scale, and a lattice Kondo scale T-0 much less than T*, which acts as the Fermi-liquid coherence scale. The lattice Kondo resonance is split into a main branch, which is pinned at the Fermi level, and whose width is set by T-0, and an upper branch at omega approximate to T*. The weight of the upper branch decreases rapidly away from n(c) = 1 and vanishes for n(c) less than or similar to 0.7 (however, the pseudogap in the conduction electron spectral density persists for all n(c)). On increasing temperature, we find that the lattice Kondo resonance vanishes on a temperature scale of order 10T(0), the same scale over which the single-ion Kondo resonance vanishes in impurity model calculations. In contrast to impurity model calculations, however, we find that the position of the lattice Kondo resonance depends strongly on temperature. The results are used to make predictions on the temperature dependence of the low-energy photoemission spectrum of metallic heavy fermions and doped Kondo, insulators. We compare our results for the photoemission spectra with available high-resolution measurements on YbInCu4 and YbAgCu4. The loss in intensity with increasing temperature, and the asymmetric lineshape of the low-energy spectra are well accounted for by our simplified S = 1/2 Kondo lattice model.
Tipologia IRIS:
01 - Articolo su periodico
Elenco autori:
T. Costi, N. Manini
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