Your search keyword '"Žitko, R."' showing total 2 results

1. Spin thermopower in the overscreened Kondo model.

Author

Žitko, R, Mravlje, J, Ramšak, A, and Rejec, T

Subjects

*THERMOELECTRIC power, *SPIN polarization, *KONDO effect, *RENORMALIZATION group, *SEEBECK coefficient, *FERMI liquids, *QUANTUM field theory

Abstract

Using the numerical renormalization group method, we study the spin thermopower in the two-channel spin-1/2 Kondo model. The non-Fermi liquid properties related to the overscreening of the impurity spin crucially affect the response of the system to the magnetic field and in consequence the spin-thermal transport. Although the magnetic field does not strongly polarize the impurity spin, we show that it nevertheless strongly affects the low-energy part of the spectral function. In turn, this leads to characteristic saturation of the spin Seebeck coefficient at the value of 0.388kB/|e| at T ∼ T*, where T*∝B2/TK is the scale of the crossover between the intermediate-temperature non-Fermi-liquid regime and the low-temperature Fermi-liquid regime. We show that measuring the spin thermopower at low magnetic fields would provide a sensitive test for distinguishing regular Fermi liquid, singular Fermi liquid and non-Fermi liquid behaviour in nanodevices. [ABSTRACT FROM AUTHOR]

Published

2013

2. Effect of assisted hopping on thermopower in an interacting quantum dot.

Author

Tooski, S B, Ramšak, A, Bułka, B R, and Žitko, R

Subjects

ELECTRIC admittance, THERMOELECTRIC power, QUANTUM dots, QUANTUM tunneling, NUMERICAL analysis, PAIRING correlations (Nuclear physics)

Abstract

We investigate the electrical conductance and thermopower of a quantum dot tunnel coupled to external leads described by an extension of the Anderson impurity model which takes into account the assisted hopping processes, i.e., the occupancy-dependence of the tunneling amplitudes. We provide analytical understanding based on scaling arguments and the Schrieffer–Wolff transformation, corroborated by detailed numerical calculations using the numerical renormalization group method. The assisted hopping modifies the coupling to the two-particle state, which shifts the Kondo exchange coupling constant and exponentially reduces or enhances the Kondo temperature, breaks the particle-hole symmetry, and strongly affects the thermopower. We discuss the gate-voltage and temperature dependence of the transport properties in various regimes. For a particular value of the assisted hopping parameter we find peculiar discontinuous behaviour in the mixed-valence regime. Near this value, we find very high Seebeck coefficient. We show that, quite generally, the thermopower is a highly sensitive probe of assisted hopping and Kondo correlations. [ABSTRACT FROM AUTHOR]

Published

2014