23,346 research outputs found
New Numerical Results Indicate a Half-Filling SU(4) Kondo State in Carbon Nanotubes
Numerical calculations simulate transport experiments in carbon nanotube
quantum dots (P. Jarillo-Herrero et al., Nature 434, 484 (2005)), where a
strongly enhanced Kondo temperature T_K ~ 8K was associated with the SU(4)
symmetry of the Hamiltonian at quarter-filling for an orbitally
double-degenerate single-occupied electronic shell. Our results clearly suggest
that the Kondo conductance measured for an adjacent shell with T_K ~ 16K,
interpreted as a singlet-triplet Kondo effect, can be associated instead to an
SU(4) Kondo effect at half-filling. Besides presenting spin-charge Kondo
screening similar to the quarter-filling SU(4), the half-filling SU(4) has been
recently associated to very rich physical behavior, including a
non-Fermi-liquid state (M. R. Galpin et al., Phys. Rev. Lett. 94, 186406
(2005)).Comment: 7 pages, 7 figure
Vorton Formation
In this paper we present the first analytic model for vorton formation. We
start by deriving the microscopic string equations of motion in Witten's
superconducting model, and show that in the relevant chiral limit these
coincide with the ones obtained from the supersonic elastic models of Carter
and Peter. We then numerically study a number of solutions of these equations
of motion and thereby suggest criteria for deciding whether a given
superconducting loop configuration can form a vorton. Finally, using a recently
developed model for the evolution of currents in superconducting strings we
conjecture, by comparison with these criteria, that string networks formed at
the GUT phase transition should produce no vortons. On the other hand, a
network formed at the electroweak scale can produce vortons accounting for up
to 6% of the critical density. Some consequences of our results are discussed.Comment: 41 pages; color figures 3-6 not included, but available from authors.
To appear in Phys. Rev.
Structural studies of mesoporous ZrO-CeO and ZrO-CeO/SiO mixed oxides for catalytical applications
In this work the synthesis of ZrO-CeO and
ZrO-CeO/SiO were developed, based on the process to form
ordered mesoporous materials such as SBA-15 silica. The triblock copolymer
Pluronic P-123 was used as template, aiming to obtain crystalline single phase
walls and larger specific surface area, for future applications in catalysis.
SAXS and XRD results showed a relationship between ordered pores and the
material crystallization. 90% of CeO leaded to single phase homogeneous
ceria-zirconia solid solution of cubic fluorite structure (Fmm). The
SiO addition improved structural and textural properties as well as the
reduction behavior at lower temperatures, investigated by XANES measurements
under H atmosphere
Polarized currents and spatial separation of Kondo state: NRG study of spin-orbital effect in a double QD
A double quantum dot device, connected to two channels that only see each
other through interdot Coulomb repulsion, is analyzed using the numerical
renormalization group technique. By using a two-impurity Anderson model, and
parameter values obtained from experiment [S. Amasha {\it et al.}, Phys. Rev.
Lett. {\bf 110}, 046604 (2013)], it is shown that, by applying a moderate
magnetic field, and adjusting the gate potential of each quantum dot, opposing
spin polarizations are created in each channel. Furthermore, through a well
defined change in the gate potentials, the polarizations can be reversed. This
polarization effect is clearly associated to a spin-orbital Kondo state having
a Kondo peak that originates from spatially separated parts of the device. This
fact opens the exciting possibility of experimentally probing the internal
structure of an SU(2) Kondo state.Comment: 4+ pages; 4 figures; supplemental material (1 page, 2 figures
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