The effects of finite temperature in transport through nanoscopic systems exhibiting uniaxial
magnetic anisotropy D, such as molecular magnets, adatoms, or quantum dots side coupled …

Transport properties in the Kondo regime of a nanosystem displaying uniaxial magnetic
anisotropy (such as a magnetic molecule, magnetic adatom, or quantum dot coupled to a …

This paper addresses the question of how spin-dependent transport through a local orbital
of a nanosystem exhibiting uniaxial magnetic anisotropy (as in, eg, magnetic molecules …

We study the interplay of the Kondo effect and spin-polarized tunneling in a class of systems
exhibiting uniaxial magnetic anisotropy. Using the numerical renormalization group method …

Transport through molecular magnets is studied in the regime of strong coupling to the
leads. We consider a resonant-tunneling model where the electron spin in a quantum dot or …

The transport properties of a large-spin molecule strongly coupled to ferromagnetic leads in
the presence of transverse magnetic anisotropy are studied theoretically. The relevant …

The frequency-dependent transport through a nanodevice containing a large-spin magnetic
molecule is studied theoretically in the Kondo regime. Specifically, the effect of magnetic …

We demonstrate that in a single molecule magnet strongly coupled to electrodes the Kondo
effect involves all magnetic excitations. This Kondo effect is induced by the quantum …

The finite-frequency transport properties of a large-spin molecule attached to ferromagnetic
contacts are studied theoretically in the Kondo regime. The focus is on the behavior of the …

We study the Kondo effect in a quantum dot or a single molecule coupled to ferromagnetic
leads. Spin-dependent quantum charge fluctuations in the dot induce the lifting of the spin …