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Featured researches published by A. Tagliacozzo.
Archive | 2000
Giuseppe Morandi; Pasquale Sodano; A. Tagliacozzo; Valerio Tognetti
1 Introduction.- 2 Fermi Liquids and Luttinger Liquids.- 3 Quantum Number Fractionalization in Antiferromagnets.- 4 Conformal Field Theory Approach to Quantum Impurity Problems.- 5 Quantum Magnetism Approaches to Strongly Correlated Electrons.- 6 Introduction to Some Common Topics in Gauge Theory and Spin Systems.- 7 Quantum Chaos and Transport in Mesoscopic Systems.
Physical Review Letters | 2004
P. Stefański; A. Tagliacozzo; Bogdan R. Bułka
Linear conductance across a large quantum dot via a single level epsilon(0) with large hybridization to the contacts is strongly sensitive to quasibound states localized in the dot and weakly coupled to epsilon(0). The conductance oscillates with the gate voltage due to interference of the Fano type. At low temperature and Coulomb blockade, Kondo correlations damp the oscillations on an extended range of gate voltage values, by freezing the occupancy of the epsilon(0) level itself. As a consequence, the antiresonances of Fano origin are washed out. The results are in good correspondence with experimental data for a large quantum dot in the semiopen regime.
Physical Review B | 2014
Luca Galletti; Sophie Charpentier; M. Iavarone; P. Lucignano; D. Massarotti; Riccardo Arpaia; Yusuke Suzuki; Kazuo Kadowaki; Thilo Bauch; A. Tagliacozzo; F. Tafuri; Floriana Lombardi
In superconductor-topological insulator-superconductor hybrid junctions, the barrier edge states are expected to be protected against backscattering, to generate unconventional proximity effects, and, possibly, to signal the presence of Majorana fermions. The standards of proximity modes for these types of structures have to be settled for a neat identification of possible new entities. Through a systematic and complete set of measurements of the Josephson properties we find evidence of ballistic transport in coplanar Al-Bi2Se3-Al junctions that we attribute to a coherent transport through the topological edge state. The shunting effect of the bulk only influences the normal transport. This behavior, which can be considered to some extent universal, is fairly independent of the specific features of superconducting electrodes. A comparative study of Shubnikov-de Haas oscillations and scanning tunneling spectroscopy gave an experimental signature compatible with a two-dimensional electron transport channel with a Dirac dispersion relation. A reduction of the size of the Bi2Se3 flakes to the nanoscale is an unavoidable step to drive Josephson junctions in the proper regime to detect possible distinctive features of Majorana fermions.
Physical Review Letters | 2005
R. Capozza; Domenico Giuliano; P. Lucignano; A. Tagliacozzo
We calculate the oscillations of the dc conductance across a mesoscopic ring, simultaneously tuned by applied magnetic and electric fields orthogonal to the ring. The oscillations depend on the Aharonov-Bohm flux and of the spin-orbit coupling. They result from mixing of the dynamical phase, including the Zeeman spin splitting, and of geometric phases. By changing the applied fields, the geometric phase contribution to the conductance oscillations can be tuned from the adiabatic (Berry) to the nonadiabatic (Ahronov-Anandan) regime. To model a realistic device, we also include nonzero backscattering at the connection between ring and contacts, and a random phase for electron wave function, accounting for dephasing effects.
Physical Review B | 2011
Vincenzo Parente; P. Lucignano; P. Vitale; A. Tagliacozzo; F. Guinea
We study the surface resistivity of a three-dimensional topological insulator when the boundaries exhibit a non trivial curvature. We obtain an analytical solution for a spherical topological insulator, and we show that a non trivial quantum spin connection emerges from the three dimensional band structure. We analyze the effect of the spin connection on the scattering by a bump on a flat surface. Quantum effects induced by the geometry lead to resonances when the electron wavelength is comparable to the size of the bump.
Physical Review B | 2012
P. Lucignano; A. Mezzacapo; F. Tafuri; A. Tagliacozzo
We propose an alternative platform to observe Majorana bound states in solid state systems. High critical temperature cuprate superconductors can induce superconductivity, by proximity effect, in quasi one dimensional nanowires with strong spin orbit coupling. They favor a wider and more robust range of conditions to stabilize Majorana fermions due to the large gap values, and offer novel functionalities in the design of the experiments determined by different dispersion for Andreev bound states as a function of the phase difference.
Physical Review B | 2015
D. Massarotti; Daniela Stornaiuolo; P. Lucignano; Luca Galletti; D. Born; G. Rotoli; Floriana Lombardi; L. Longobardi; A. Tagliacozzo; F. Tafuri
We have identified anomalous behavior of the escape rate out of the zero-voltage state in Josephson junctions with a high critical current density J(c). For this study we have employed YBa2Cu3O7-x grain boundary junctions, which span a wide range of J(c) and have appropriate electrodynamical parameters. Such high Jc junctions, when hysteretic, do not switch from the superconducting to the normal state following the expected stochastic Josephson distribution, despite having standard Josephson properties such as a Fraunhofer magnetic field pattern. The switching current distributions (SCDs) are consistent with nonequilibrium dynamics taking place on a local rather than a global scale. This means that macroscopic quantum phenomena seem to be practically unattainable for high Jc junctions. We argue that SCDs are an accurate means to measure nonequilibrium effects. This transition from global to local dynamics is of relevance for all kinds of weak links, including the emergent family of nanohybrid Josephson junctions. Therefore caution should be applied in the use of such junctions in, for instance, the search for Majorana fermions.
Physical Review B | 2013
P. Lucignano; A. Tagliacozzo; F. Tafuri
Majorana Bound States are predicted to appear as boundary states of the Kitaev model. Here we show that a pi-Josephson Junction, inserted in a topologically non trivial model ring, sustains a Majorana Bound State, which is robust with respect to local and non local perturbations. The realistic structure could be based on a High Tc Superconductor tricrystal structure, similar to the one used to spot the d-wave order parameter. The presence of the Majorana Bound State changes the ground state of the topologically non trivial ring in a measurable way, with respect to that of a conventional one.
Physical Review B | 2007
P. Lucignano; Domenico Giuliano; A. Tagliacozzo
We employ a path integral real time approach to compute the DC conductance and spin polarization for electrons transported across a ballistic Quantum Ring with Rashba spin-orbit interaction. We use a piecewise semiclassical approximation for the particle orbital motion and solve the spin dynamics exactly, by accounting for both Zeeman coupling and spin-orbit interaction at the same time. Within our approach, we are able to study how the interplay between Berry phase, Ahronov Casher phase, Zeeman interaction and weak localization corrections influences the quantum interference in the conductance within a wide range of externally applied fields. Our results are helpful in inerpreting recent measurements on interferometric rings.
Physical Review B | 2013
Vincenzo Parente; A. Tagliacozzo; Felix von Oppen; F. Guinea
This work was done with financial support from FP7/2007-2013 under Grant No. 264098-MAMA (Multifunctioned Advanced Materials and Nanoscale Phenomena), MIUR-Italy through Prin-Project 2009 “Nanowire high critical temperature superconductor field-effect devices,” as well as the Helmholtz Virtual Insitute “New States of Matter.” V.P. and F.G. acknowledge financial support from MINECO, Spain, through Grant No. FIS2011-23713, and the European Union, through Grant No. 290846.