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153 results on '"Caprara, Sergio"'

1. Kondo versus Fano in superconducting artificial high-Tc heterostructures

Author

Campi, Gaetano, Logvenov, Gennady, Caprara, Sergio, Valletta, Antonio, and Bianconi, Antonio

Subjects
Condensed Matter - Superconductivity
Abstract

Recently, the quest for high-Tc superconductivity has evolved from the trial-and-error methodology to the growth of nanostructured artificial high-Tc superlattices (AHTS) with tailor-made superconducting functional properties by quantum design. Superlattices are composed of nanoscale superconducting units of modulation doped Mott insulator La2CuO4 with thickness L intercalated by metallic overdoped La1.55Sr0.45CuO4 and period d. Quantum design based on the multi-gap Bogoliubov theory including spin-orbit coupling (SOC). has been employed for prediction of the amplification of the critical temperature as a function of the conformational parameter L/d. At the top of the superconducting dome, at the magic ratio L/d=2/3, the heterostructures are tuned at the Fano-Feshbach resonance and the normal phase exhibits the Planckian T-linear resistivity. Here, we report experimental evidence that the Kondo proximity effect competes with the Fano-Feshbach resonance suppressing Tc on both sides of the superconducting dome. The Kondo proximity effect is expected in electrical resistance of AHTS nanoscale heterostructures following a Kondo universal scaling obtained by numerical renormalization group theory. We show the vanishing Kondo temperature TK and Kondo scattering amplitude R0K at L/d=2/3, while TK and R0K increase on the underdoped (L/d>2/3) and overdoped (L/d<2/3) side of the superconducting dome., Comment: 11 pages, 3 figures

Published
2024

2. Berezinskii-Kosterlitz-Thouless to BCS-like superconducting transition crossover driven by weak magnetic fields in ultra-thin NbN films

Author

Sharma, Meenakshi, Caprara, Sergio, Perali, Andrea, Singh, Surinder P., Singh, Sandeep, Fretto, Matteo, De Leo, Natascia, and Pinto, Nicola

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Statistical Mechanics
Abstract

The Berezinskii-Kosterlitz-Thouless (BKT) transition in ultra-thin NbN films is investigated in the presence of weak perpendicular magnetic fields. A jump in the phase stiffness at the BKT transition is detected up to 5 G, while the BKT features are smeared between 5 G and 50 G, disappearing altogether at 100 G, where conventional current-voltage behaviour is observed. Our findings demonstrate that weak magnetic fields, insignificant in bulk systems, deeply affect our ultra-thin system, promoting a crossover from Halperin-Nelson fluctuations to a BCS-like state with Ginzburg-Landau fluctuations, as the field increases. This behavior is related to field-induced free vortices that screen the vortex-antivortex interaction and smear the BKT transition., Comment: 10 pages, 13 figures

Published
2024

3. Thermodynamic phase diagram of the competition between superconductivity and charge order in cuprates

Author

Venditti, Giulia, Maccari, Ilaria, Lorenzana, Jose, and Caprara, Sergio

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

We argue that there is a special doping point in the phase diagram of cuprates, such that the condensation of holes into a charge-ordered and into a superconducting phase are degenerate in energy but with an energy barrier in between. We present a Monte Carlo simulation of this problem without and with quenched disorder. While in the clean case charge order and superconductivity are separated by a first-order line which is nearly independent of temperature, in the presence of quenched disorder, charge order is fragmented into domains separated by superconducting filaments reminiscent of the supersolid behavior in $^4$He. The resulting phase diagram is in good agreement with the experiments., Comment: 32 pages, 18 figures, Submitted to SciPost Physics

Published
2023
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5. Charge-Density Waves vs. Superconductivity: Some Results and Future Perspectives

Author

Venditti, Giulia and Caprara, Sergio

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Increasing experimental evidence suggests the occurrence of filamentary superconductivity in different (quasi) two-dimensional physical systems. In this piece of work, we discuss the proposal that under certain circumstances, this occurrence may be related to the competition with a phase characterized by charge ordering in the form of charge-density waves. We provide a brief summary of experimental evidence supporting our argument in two paradigmatic classes of materials, namely transition metal dichalcogenides and cuprates superconductors. We present a simple Ginzburg-Landau two-order-parameters model as a starting point to address the study of such competition. We finally discuss the outcomes of a more sophisticated model, already presented in the literature and encoding the presence of impurities, and how it can be further improved in order to really address the interplay between charge-density waves and superconductivity and the possible occurrence of filamentary superconductivity at the domain walls between different charge-ordered regions., Comment: 20 pages, 6 figures, Published on Condensed Matter, Special Issue "Fluctuations and Highly Non-linear Phenomena in Superfluids and Superconductors VII"

Published
2023
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6. Superfluid response of two-dimensional filamentary superconductors

Author

Venditti, Giulia, Maccari, Ilaria, Jouan, Alexis, Singh, Gyanendra, Budhani, Ramesh C., Feuillet-Palma, Cheryl, Lesueur, Jérôme, Bergeal, Nicolas, Caprara, Sergio, and Grilli, Marco

Subjects
Condensed Matter - Superconductivity
Abstract

Different classes of low-dimensional superconducting systems exhibit an inhomogeneous filamentary superconducting condensate whose macroscopic coherence still needs to be fully investigated and understood. Here we present a thorough analysis of the superfluid response of a prototypical filamentary superconductor embedded in a {two-dimensional} metallic matrix. By mapping the system into an exactly solvable random impedance network, we show how the dissipative (reactive) response of the system non-trivially depends on both the macroscopic and microscopic characteristics of the metallic (superconducting) fraction. We compare our calculations with resonant-microwave transport measurements performed on LaAlO$_3$/SrTiO$_3$ heterostructures over an extended range of temperatures and carrier densities finding that the filamentary character of superconductivity accounts for unusual peculiar features of the experimental data., Comment: 22 pages, 7 figures

Published
2023
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7. Quantum zero point electromagnetic energy difference between the superconducting and the normal phase in a HTc superconducting metal bulk sample

Author

Allocca, Annalisa, Avino, Saverio, Balestrieri, Sergio, Calloni, Enrico, Caprara, Sergio, Carpinelli, Massimo, D'Onofrio, Luca, D'Urso, Domenico, De Rosa, Rosario, Errico, Luciano, Gagliardi, Gianluca, Grilli, Marco, Mangano, Valentina, Marsella, Maria, Naticchioni, Luca, Pasqualetti, Antonio, Pepe, Giovanni Piero, Perciballi, Maurizio, Pesenti, Luca, Puppo, Paola, Rapagnani, Piero, Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Rozza, Davide, Ruggi, Paolo, Saini, Naurang, Sequino, Valeria, Sipala, Valeria, Stornaiuolo, Daniela, Tafuri, Francesco, Tagliacozzo, Arturo, Melo, Iara Tosta e, and Trozzo, Lucia

Subjects
Condensed Matter - Superconductivity
Abstract

We provide a novel methodological approach to the estimate of the change of the Quantum Vacuum electromagnetic energy density in a High critical Temperature superconducting metal bulk sample, when it undergoes the transition in temperature, from the superconducting to the normal phase. The various contributions to the Casimir energy in the two phases are highlighted and compared. While the TM polarization of the vacuum mode allows for a macroscopic description of the superconducting transition, the changes in the TE vacuum mode induced by the superconductive correlations are introduced within a microscopic model, which does not explicitly take into account the anisotropic structure of the material., Comment: 20 pages, 13 figures, to be published in Phys.Rev. B

Published
2022
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8. Thermal noise-limited beam balance as prototype of the Archimedes vacuum weight experiment and B-L dark photon search

Author

Allocca, Annalisa, Avino, Saverio, Calloni, Enrico, Caprara, Sergio, Carpinelli, Massimo, Contu, Andrea, D’Onofrio, Luca, D’Urso, Domenico, De Rosa, Rosario, Errico, L., Esposito, Marina, Gagliardi, Gianluca, Grilli, Marco, Mangano, Valentina, Marsella, Maria, Naticchioni, Luca, Pasqualetti, Antonio, Pepe, Gianpiero, Perciballi, Maurizio, Puppo, Paola, Rapagnani, Piero, Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Rozza, Davide, Ruggi, Paolo, Saini, Naurang L., Sequino, Valeria, Sipala, Valeria, Stornaiuolo, Daniela, Tafuri, Francesco, and Trozzo, Lucia

Published
2024
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9. Signature of quantum criticality in cuprates by charge density fluctuations

Author

Arpaia, Riccardo, Martinelli, Leonardo, Sala, Marco Moretti, Caprara, Sergio, Nag, Abhishek, Brookes, Nicholas B., Camisa, Pietro, Li, Qizhi, Gao, Qiang, Zhou, Xingjiang, Garcia-Fernandez, Mirian, Zhou, Ke-Jin, Schierle, Enrico, Bauch, Thilo, Peng, Ying Ying, Di Castro, Carlo, Grilli, Marco, Lombardi, Floriana, Braicovich, Lucio, and Ghiringhelli, Giacomo

Published
2023
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11. Effect of the Anomalous Diffusion of Fluctuating Cooper Pairs in the Density of States of Superconducting NbN Thin Films

Author

Brighi, Pietro, Grilli, Marco, Leridon, Brigitte, and Caprara, Sergio

Subjects
Condensed Matter - Superconductivity
Abstract

Recent scanning tunnelling microscopy experiments in NbN thin disordered superconducting films found an emergent inhomogeneity at the scale of tens of nanometers. This inhomogeneity is mirrored by an apparent dimensional crossover in the paraconductivity measured in transport above the superconducting critical temperature $T_c$. This behavior was interpreted in terms of an anomalous diffusion of fluctuating Cooper pairs, that display a {\em quasi-confinement} (i.e., a slowing down of their diffusive dynamics) on length scales shorter than the inhomogeneity identified by tunnelling experiments. Here we assume this anomalous diffusive behavior of fluctuating Cooper pairs and calculate the effect of these fluctuations on the electron density of states above $T_c$. We find that the density of states is substantially suppressed up to temperatures well above $T_c$. This behavior, which is closely reminiscent of a pseudogap, only arises from the anomalous diffusion of fluctuating Cooper pairs in the absence of stable preformed pairs, setting the stage for an intermediate behavior between the two common paradigms in the superconducting-insulator transition, namely the localisation of Cooper pairs (the so-called bosonic scenario) and the breaking of Cooper pairs into unpaired electrons due to strong disorder (the so-called fermionic scenario)., Comment: 6 pages 7 figures

Published
2019
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12. Law without law or 'just' limit theorems?

Author

Caprara, Sergio and Vulpiani, Angelo

Subjects
Condensed Matter - Statistical Mechanics, Physics - History and Philosophy of Physics
Abstract

About 35 years ago Wheeler introduced the motto `law without law' to highlight the possibility that (at least a part of) Physics may be understood only following {\em regularity principles} and few relevant facts, rather than relying on a treatment in terms of fundamental theories. Such a proposal can be seen as part of a more general attempt (including the maximum entropy approach) summarized by the slogan `it from bit', which privileges the information as the basic ingredient. Apparently it seems that it is possible to obtain, without the use of physical laws, some important results in an easy way, for instance, the probability distribution of the canonical ensemble. In this paper we will present a general discussion on those ideas of Wheeler's that originated the motto `law without law'. In particular we will show how the claimed simplicity is only apparent and it is rather easy to produce wrong results. We will show that it is possible to obtain some of the results treated by Wheeler in the realm of the statistical mechanics, using precise assumptions and nontrivial results of probability theory, mainly concerning ergodicity and limit theorems., Comment: 9 pages, 3 figures

Published
2018
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13. Theory of charge-spin conversion at oxide interfaces: The inverse spin-galvanic effect

Author

Seibold, Goetz, Caprara, Sergio, and Raimondi, Roberto

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We evaluate the non-equilibrium spin polarization induced by an applied electric field for a tight-binding model of electron states at oxides interfaces in LAO/STO heterostructures. By a combination of analytic and numerical approaches we investigate how the spin texture of the electron eigenstates due to the interplay of spin-orbit coupling and inversion asymmetry determines the sign of the induced spin polarization as a function of the chemical potential or band filling, both in the absence and presence of local disorder. With the latter, we find that the induced spin polarization evolves from a non monotonous behavior at zero temperature to a monotonous one at higher temperature. Our results may provide a sound framework for the interpretation of recent experiments., Comment: Submitted to Proceedings of SPIE Nanoscience + Engineering 2018, Spintronics XI, 23 pages, 9 figures

Published
2018

15. What do we learn from impurities and disorder in high-Tc cuprates?

Author

Alloul, Henri, Hirschfeld, Peter, Caprara, Sergio, and Eschrig, Matthias

Subjects
ELECTRONIC excitation, PHASE diagrams, INELASTIC scattering, COPPER, SUPERCONDUCTIVITY, CUPRATES
Abstract

A series of experimental studies established that the differing morphologies of the phase diagrams versus hole doping nh of the various cuprate families are mostly controlled by defects and disorder. In the minimally disordered cuprate Yttrium Baryum Copper Oxide (YBCO) we introduced controlled detfects that allowed us to probe the metallic and superconducting states. We demonstrate that the extent of the spin glass phase and the superconducting dome can be controlled by the concentration of spinless (Zn, Li) impurities substituted on the planar Cu sites. NMR frequency shift measurements establish that these defects induce, in their vicinity, a cloud with a Kondo-like paramagnetic behavior. Its "Kondo" temperature and spatial extent differ markedly between the pseudogap and strange metal regimes. We have performed transport measurements on single crystals with a controlled content of in-plane vacancies introduced by electron irradiation. At high T, the inelastic scattering of the carriers has been found independent of disorder and completely governed by the excitations of the correlated electronic state. The low T upturns in the resistivity associated with single-site Kondo-like scattering are qualitatively in agreement with local magnetism induced by spinless impurities. The apparent metal insulator crossover is only detected for a very large defect content, and part of the large resistivity upturn remains connected with Kondo-like paramagnetism. In the superconducting state, the defect-induced reduction of Tc scales linearly with the increase in residual resistivity induced by disorder. High-field magnetoresistance experiments permit us to determine the paraconductivity due to superconducting fluctuations. The latter vanishes beyond a temperature T'c and a field H'c that both decrease with increasing in-plane defect content. In the pseudogap regime, the weaker decrease of T'c with respect to that of Tc reveals a large loss of superconducting phase coherence in the presence of disorder. In light of our experimental results, we initiate a discussion of its interplay with pair breaking. Our data also permit us to confirm that the differing phase diagrams are due to competing orders or disorders that are family-specific. In the ideal phase diagram of a disorder-free cuprate, 2D superconductivity should persist at low doping. This ensemble of experimental results provides serious challenges for the theoretical understanding of superconductivity in these correlated electron systems. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Chaos and Stochastic Models in Physics: Ontic and Epistemic Aspects

Author

Caprara, Sergio and Vulpiani, Angelo

Subjects
Nonlinear Sciences - Chaotic Dynamics, Physics - History and Philosophy of Physics
Abstract

There is a persistent confusion about determinism and predictability. In spite of the opinions of some eminent philosophers (e.g., Popper), it is possible to understand that the two concepts are completely unrelated. In few words we can say that determinism is ontic and has to do with how Nature behaves, while predictability is epistemic and is related to what the human beings are able to compute. An analysis of the Lyapunov exponents and the Kolmogorov-Sinai entropy shows how deterministic chaos, although with an epistemic character, is non subjective at all. This should clarify the role and content of stochastic models in the description of the physical world., Comment: 16 pages, 1 figure

Published
2016
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17. Casimir energy for N superconducting cavities: a model for the YBCO (GdBCO) sample to be used in the Archimedes experiment

Author

Allocca, Annalisa, Avino, Saverio, Balestrieri, Sergio, Calloni, Enrico, Caprara, Sergio, Carpinelli, Massimo, D’Onofrio, Luca, D’Urso, Domenico, De Rosa, Rosario, Errico, Luciano, Gagliardi, Gianluca, Grilli, Marco, Mangano, Valentina, Marsella, Maria, Naticchioni, Luca, Pasqualetti, Antonio, Pepe, Giovanni Piero, Perciballi, Maurizio, Pesenti, Luca, Puppo, Paola, Rapagnani, Piero, Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Rozza, Davide, Ruggi, Paolo, Saini, Naurang, Sequino, Valeria, Sipala, Valeria, Stornaiuolo, Daniela, Tafuri, Francesco, Tagliacozzo, Arturo, Tosta e Melo, Iara, and Trozzo, Lucia

Published
2022
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18. Nematic fluctuations and the magneto-structural phase transition in ${\rm Ba(Fe_{1-x}Co_x)_2As_2}$

Author

Kretzschmar, Florian, Böhm, Thomas, Karahasanović, Una, Muschler, Bernhard, Baum, Andreas, Jost, Daniel, Schmalian, Joerg, Caprara, Sergio, Grilli, Marco, Di Castro, Carlo, Analytis, James G., Chu, Jiun-Haw, Fisher, Ian Randal, and Hackl, Rudi

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

An inelastic light (Raman) scattering study of nematicity and critical fluctuations in ${\rm Ba(Fe_{1-x}Co_x)_2As_2}$ ($0\le x \le 0.051$) is presented. It is shown that the response from fluctuations appears only in $B_{1g}$ (${x^2-y^2}$) symmetry. The scattering amplitude increases towards the structural transition at $T_s$ but vanishes only below the magnetic ordering transition at $T_{\rm SDW} < T_s$, suggesting a magnetic origin of the fluctuations. The theoretical analysis explains the selection rules and the temperature dependence of the fluctuation response. These results make magnetism the favorite candidate for driving the series of transitions.%Below $T_{\rm SDW}$ the gap of the magnetically ordered phase opens up.

Published
2015
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19. Glue function of optimally and overdoped cuprates from inversion of the Raman spectra

Author

Fanfarillo, Laura, Mori, Matteo, Campetella, Marco, Grilli, Marco, and Caprara, Sergio

Subjects
Condensed Matter - Superconductivity
Abstract

We address the issue of identifying the mediators of effective interactions in cuprates superconductors. Specifically, we use inversion theory to analyze Raman spectra of optimally and over-doped La$_{2-x}$Sr$_x$CuO$_4$ samples. This allows us to extract the so-called glue function without making any a priori assumption based on any specific model. We use instead two different techniques, namely the singular value decomposition and a multi-rectangle decomposition. With both techniques we find consistent results showing that: i) two distinct excitations are responsible for the glue function, which have completely different doping dependence. One excitation becomes weak above optimal doping, where on the contrary the other keeps (or even slightly increases) its strength; ii) there is a marked temperature dependence on the weight and spectral distribution of these excitation, which therefore must have a somewhat critical character. It is quite natural to identify and characterize these two distinct excitations as damped antiferromagnetic spin waves and damped charge density waves, respectively. This sets the stage for a scenario in which superconductivity is concomitant and competing with a charge ordering instability., Comment: 14 pages, 10 figures (Main text: 6 pages, 4 figures)

Published
2015
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20. Intrinsic spin Hall effect in systems with striped spin-orbit coupling

Author

Seibold, Goetz, Caprara, Sergio, Grilli, Marco, and Raimondi, Roberto

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The Rashba spin-orbit coupling arising from structure inversion asymmetry couples spin and momentum degrees of freedom providing a suitable (and very intensively investigated) environment for spintronic effects and devices. Here we show that in the presence of strong disorder, non-homogeneity in the spin-orbit coupling gives rise to a finite spin Hall conductivity in contrast with the corresponding case of a homogeneous linear spin-orbit coupling. In particular, we examine the inhomogeneity arising from a striped structure for a two-dimensional electron gas, affecting both density and Rashba spin-orbit coupling. We suggest that this situation can be realized at oxide interfaces with periodic top gating., Comment: 9 pages, 8 figures

Published
2015
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21. Undecidability of the Spectral Gap: An Epistemological Look

Author

Ippoliti, Emiliano and Caprara, Sergio

Subjects
Reductionism -- Analysis, Hamiltonian systems -- Research, Quantum theory -- Research, Humanities
Abstract

The results of Cubitt et al. on the spectral gap problem add a new chapter to the issue of undecidability in physics, as they show that it is impossible to decide whether the Hamiltonian of a quantum many-body system is gapped or gapless. This implies, amongst other things, that a reductionist viewpoint would be untenable. In this paper, we examine their proof and a few philosophical implications, in particular ones regarding models and limitative results. In more detail, we examine the way these theorems model many-body quantum systems, and we question what, if anything, is the physical counterpart of the models used by Cubitt et al. We argue that these models are non-representational and that, even if they are so artificial that it is hard to imagine a physical system arising from them, they nonetheless offer an opportunity to learn about the world and the relation between mathematics and reality. On this basis, we draw the conclusion that their results do not undermine the reductionist viewpoint in a strong sense but leave the question open in a weak sense., Author(s): Emiliano Ippoliti [sup.1] , Sergio Caprara [sup.2] Author Affiliations: (1) grid.7841.a, Philosophy Department, Sapienza University of Rome, , Roma, Italy (2) grid.7841.a, Physics Department, Sapienza University of Rome, , [...]

Published
2021
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26. QTris: a quantum game

Author

Baboux, Florent, D'Auria, Virginia, Bienaimé, Tom, Bondani, Maria, Caprara, Sergio, Chiarello, Fabio, Dabbicco, Maurizio, Hamma, Alioscia, Malgieri, Massimiliano, Marzoli, Irene, Nazzaro, Michela, and Paladino, Elisabetta

Published
2024
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27. Shape resonance for the anisotropic superconducting gaps near a Lifshitz transition: the effect of electron hopping between layers

Author

Innocenti, Davide, Caprara, Sergio, Poccia, Nicola, Ricci, Alessandro, Valletta, Antonio, and Bianconi, Antonio

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Quantum Gases
Abstract

The multigap superconductivity modulated by quantum confinement effects in a superlattice of quantum wells is presented. Our theoretical BCS approach captures the low-energy physics of a shape resonance in the superconducting gaps when the chemical potential is tuned near a Lifshitz transition. We focus on the case of weak Cooper-pairing coupling channels and strong pair exchange interaction driven by repulsive Coulomb interaction that allows to use the BCS theory in the weak-coupling regime neglecting retardation effects like in quantum condensates of ultracold gases. The calculated matrix element effects in the pairing interaction are shown to yield a complex physics near the particular quantum critical points due to Lifshitz transitions in multigap superconductivity. Strong deviations of the ratio $2\Delta/T_c$ from the standard BCS value as a function of the position of the chemical potential relative to the Lifshitz transition point measured by the Lifshitz parameter are found. The response of the condensate phase to the tuning of the Lifshitz parameter is compared with the response of ultracold gases in the BCS-BEC crossover tuned by an external magnetic field. The results provide the description of the condensates in this regime where matrix element effects play a key role., Comment: 12 pages, 6 figures

Published
2010
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28. Resonant and crossover phenomena in a multiband superconductor tuning the chemical potential near a band edge

Author

Innocenti, Davide, Poccia, Nicola, Ricci, Alessandro, Valletta, Antonio, Caprara, Sergio, Perali, Andrea, and Bianconi, Antonio

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Quantum Gases
Abstract

Resonances in the superconducting properties, in a regime of crossover from BCS to mixed Bose-Fermi superconductivity, are investigated in a two-band superconductor where the chemical potential is tuned near the band edge of the second mini-band generated by quantum confinement effects. The shape resonances at T=0 in the superconducting gaps (belonging to the class of Feshbach-like resonances) is manifested by interference effects in the superconducting gap at the first large Fermi surface when the chemical potential is in the proximity of the band edge of the second mini-band. The case of a superlattice of quantum wells is considered and the amplification of the superperconducting gaps at the 3D-2D Fermi surface topological transition is clearly shown. The results are found to be in good agreement with available experimental data on a superlattice of honeycomb boron layers intercalated by Al and Mg spacer layers., Comment: 13 pages, 9 images

Published
2010
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29. The Shrinking Fermi Liquid Scenario for Strange-Metal Behavior from Overdamped Optical Phonons.

Author

Mirarchi, Giovanni, Grilli, Marco, Seibold, Götz, and Caprara, Sergio

Subjects
FERMI liquids, PHONONS, HIGH temperature superconductors, OPTICAL properties, LOW temperatures
Abstract

We discuss how the interaction of electrons with an overdamped optical phonon can give rise to a strange-metal behavior over extended temperature and frequency ranges. Although the mode has a finite frequency, an increasing damping shifts spectral weight to progressively lower energies so that despite the ultimate Fermi liquid character of the system at the lowest temperatures and frequencies, the transport and optical properties of the electron system mimic a marginal Fermi liquid behavior. Within this shrinking Fermi liquid scenario, we extensively investigate the electron self-energy in all frequency and temperature ranges, emphasizing similarities and differences with respect to the marginal Fermi liquid scenario. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Disordered loops in the two-dimensional antiferromagnetic spin-fermion model

Author

Enss, Tilman, Caprara, Sergio, Castellani, Claudio, Di Castro, Carlo, and Grilli, Marco

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The spin-fermion model has long been used to describe the quantum-critical behavior of 2d electron systems near an antiferromagnetic (AFM) instability. Recently, the standard procedure to integrate out the fermions to obtain an effective action for spin waves has been questioned in the clean case. We show that in the presence of disorder, the single fermion loops display two crossover scales: upon lowering the energy, the singularities of the clean fermionic loops are first cut off, but below a second scale new singularities arise that lead again to marginal scaling. In addition, impurity lines between different fermion loops generate new relevant couplings which dominate at low energies. We outline a non-linear sigma model formulation of the single-loop problem, which allows to control the higher singularities and provides an effective model in terms of low-energy diffusive as well as spin modes., Comment: 22 pages, 8 figures

Published
2007
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32. The Mott Metal-Insulator transition in the half-filled Hubbard model on the Triangular Lattice

Author

Capone, Massimo, Capriotti, Luca, Becca, Federico, and Caprara, Sergio

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We investigate the metal-insulator transition in the half-filled Hubbard model on a two-dimensional triangular lattice using both the Kotliar-Ruckenstein slave-boson technique, and exact numerical diagonalization of finite clusters. Contrary to the case of the square lattice, where the perfect nesting of the Fermi surface leads to a metal-insulator transition at arbitrarily small values of U, always accompanied by antiferromagnetic ordering, on the triangular lattice, due to the lack of perfect nesting, the transition takes place at a finite value of U, and frustration induces a non-trivial competition among different magnetic phases. Indeed, within the mean-field approximation in the slave-boson approach, as the interaction grows the paramagnetic metal turns into a metallic phase with incommensurate spiral ordering. Increasing further the interaction, a linear spin-density-wave is stabilized, and finally for strong coupling the latter phase undergoes a first-order transition towards an antiferromagnetic insulator. No trace of the intermediate phases is instead seen in the exact diagonalization results, indicating a transition between a paramagnetic metal and an antiferromagnetic insulator., Comment: 5 pages, 4 figures

Published
2000
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34. Phenomenological XXZ model for the competition between superconductivity and charge order in cuprates

Author

Venditti, Giulia, Maccari, Ilaria, Lorenzana, José, Caprara, Sergio, Venditti, Giulia, Maccari, Ilaria, Lorenzana, José, and Caprara, Sergio

Abstract

We argue that there is a special doping point in the phase diagram of cuprates, such that the condensation of holes into a charge-ordered and a superconducting phase are degenerate in energy but with an energy barrier in between. We present Monte Carlo simulations of a phenomenological XXZ model for this problem without and with quenched disorder in two dimensions. While in the clean case charge order and superconductivity are separated by a first-order line which is nearly independent of temperature, in the presence of quenched disorder charge order is fragmented into domains separated by superconducting filaments reminiscent of the supersolid behaviour in 4He. Assuming weak interlayer couplings, the resulting phase diagram of the three-dimensional system is in good agreement with the experiments.

Published
2023
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35. Superfluid response of two-dimensional filamentary superconductors

Author

Ministero dell'Istruzione, dell'Università e della Ricerca, Sapienza Università di Roma, Carl Trygger Foundation, Agencia Estatal de Investigación (España), Venditti, Giulia, Maccari, Ilaria, Jouan, Alexis, Singh, Gyanendra, Budhani, Ramesh C., Feuillet-Palma, Cheryl, Lesueur, Jerome, Bergeal, Nicolas, Caprara, Sergio, Grilli, Marco, Ministero dell'Istruzione, dell'Università e della Ricerca, Sapienza Università di Roma, Carl Trygger Foundation, Agencia Estatal de Investigación (España), Venditti, Giulia, Maccari, Ilaria, Jouan, Alexis, Singh, Gyanendra, Budhani, Ramesh C., Feuillet-Palma, Cheryl, Lesueur, Jerome, Bergeal, Nicolas, Caprara, Sergio, and Grilli, Marco

Abstract

Different classes of low-dimensional superconducting systems exhibit an inhomogeneous filamentary superconducting condensate whose macroscopic coherence still needs to be fully investigated and understood. Here we present a thorough analysis of the superfluid response of a prototypical filamentary superconductor embedded in a {two-dimensional} metallic matrix. By mapping the system into an exactly solvable random impedance network, we show how the dissipative (reactive) response of the system non-trivially depends on both the macroscopic and microscopic characteristics of the metallic (superconducting) fraction. We compare our calculations with resonant-microwave transport measurements performed on LaAlO$_3$/SrTiO$_3$ heterostructures over an extended range of temperatures and carrier densities finding that the filamentary character of superconductivity accounts for unusual peculiar features of the experimental data.

Published
2023

38. Quantum zero point electromagnetic energy difference between the superconducting and the normal phase in a high- Tc superconducting metal bulk sample

Author

Allocca, Annalisa, primary, Avino, Saverio, additional, Balestrieri, Sergio, additional, Calloni, Enrico, additional, Caprara, Sergio, additional, Carpinelli, Massimo, additional, D'Onofrio, Luca, additional, D'Urso, Domenico, additional, De Rosa, Rosario, additional, Errico, Luciano, additional, Gagliardi, Gianluca, additional, Grilli, Marco, additional, Mangano, Valentina, additional, Marsella, Maria, additional, Naticchioni, Luca, additional, Pasqualetti, Antonio, additional, Pepe, Giovanni Piero, additional, Perciballi, Maurizio, additional, Pesenti, Luca, additional, Puppo, Paola, additional, Rapagnani, Piero, additional, Ricci, Fulvio, additional, Rosa, Luigi, additional, Rovelli, Carlo, additional, Rozza, Davide, additional, Ruggi, Paolo, additional, Saini, Naurang, additional, Sequino, Valeria, additional, Sipala, Valeria, additional, Stornaiuolo, Daniela, additional, Tafuri, Francesco, additional, Tagliacozzo, Arturo, additional, Tosta e Melo, Iara, additional, and Trozzo, Lucia, additional

Published
2022
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41. Quantum zero point electromagnetic energy difference between the superconducting and the normal phase in a high- Tc superconducting metal bulk sample

Author

Allocca, A, Avino, S, Balestrieri, S, Calloni, E, Caprara, S, Carpinelli, M, D'Onofrio, L, D'Urso, D, De Rosa, R, Errico, L, Gagliardi, G, Grilli, M, Mangano, V, Marsella, M, Naticchioni, L, Pasqualetti, A, Pepe, G, Perciballi, M, Pesenti, L, Puppo, P, Rapagnani, P, Ricci, F, Rosa, L, Rovelli, C, Rozza, D, Ruggi, P, Saini, N, Sequino, V, Sipala, V, Stornaiuolo, D, Tafuri, F, Tagliacozzo, A, Tosta e Melo, I, Trozzo, L, Allocca, Annalisa, Avino, Saverio, Balestrieri, Sergio, Calloni, Enrico, Caprara, Sergio, Carpinelli, Massimo, D'Onofrio, Luca, D'Urso, Domenico, De Rosa, Rosario, Errico, Luciano, Gagliardi, Gianluca, Grilli, Marco, Mangano, Valentina, Marsella, Maria, Naticchioni, Luca, Pasqualetti, Antonio, Pepe, Giovanni Piero, Perciballi, Maurizio, Pesenti, Luca, Puppo, Paola, Rapagnani, Piero, Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Rozza, Davide, Ruggi, Paolo, Saini, Naurang, Sequino, Valeria, Sipala, Valeria, Stornaiuolo, Daniela, Tafuri, Francesco, Tagliacozzo, Arturo, Tosta e Melo, Iara, Trozzo, Lucia, Allocca, A, Avino, S, Balestrieri, S, Calloni, E, Caprara, S, Carpinelli, M, D'Onofrio, L, D'Urso, D, De Rosa, R, Errico, L, Gagliardi, G, Grilli, M, Mangano, V, Marsella, M, Naticchioni, L, Pasqualetti, A, Pepe, G, Perciballi, M, Pesenti, L, Puppo, P, Rapagnani, P, Ricci, F, Rosa, L, Rovelli, C, Rozza, D, Ruggi, P, Saini, N, Sequino, V, Sipala, V, Stornaiuolo, D, Tafuri, F, Tagliacozzo, A, Tosta e Melo, I, Trozzo, L, Allocca, Annalisa, Avino, Saverio, Balestrieri, Sergio, Calloni, Enrico, Caprara, Sergio, Carpinelli, Massimo, D'Onofrio, Luca, D'Urso, Domenico, De Rosa, Rosario, Errico, Luciano, Gagliardi, Gianluca, Grilli, Marco, Mangano, Valentina, Marsella, Maria, Naticchioni, Luca, Pasqualetti, Antonio, Pepe, Giovanni Piero, Perciballi, Maurizio, Pesenti, Luca, Puppo, Paola, Rapagnani, Piero, Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Rozza, Davide, Ruggi, Paolo, Saini, Naurang, Sequino, Valeria, Sipala, Valeria, Stornaiuolo, Daniela, Tafuri, Francesco, Tagliacozzo, Arturo, Tosta e Melo, Iara, and Trozzo, Lucia

Abstract

We provide a methodological approach to the estimate of the change of the quantum vacuum electromagnetic energy density in a high critical temperature superconducting metal bulk sample, when it undergoes the transition in temperature, from the superconducting to the normal phase. The various contributions to the Casimir energy in the two phases are highlighted and compared. While the transverse magnetic polarization of the vacuum mode allows for a macroscopic description of the superconducting transition, the changes in the transverse electric vacuum mode induced by the superconductive correlations are introduced within a microscopic model, which does not explicitly take into account the anisotropic structure of the material.

Published
2022

42. Two-gap s± -wave superconductivity at an oxide interface

Author

Agence Nationale de la Recherche (France), European Commission, Fédération Île de France de Recherche en Environnement, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, Sapienza Università di Roma, Ministero dell'Istruzione, dell'Università e della Ricerca, Singh, Gyanendra, Venditti, G., Saiz, Guilhem, Herranz, Gervasi, Sánchez Barrera, Florencio, Jouan, Alexis, Feuillet-Palma, Chéryl, Lesueur, Jerome, Grilli, Marco, Caprara, Sergio, Bergeal, ‪Nicolas, Agence Nationale de la Recherche (France), European Commission, Fédération Île de France de Recherche en Environnement, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, Sapienza Università di Roma, Ministero dell'Istruzione, dell'Università e della Ricerca, Singh, Gyanendra, Venditti, G., Saiz, Guilhem, Herranz, Gervasi, Sánchez Barrera, Florencio, Jouan, Alexis, Feuillet-Palma, Chéryl, Lesueur, Jerome, Grilli, Marco, Caprara, Sergio, and Bergeal, ‪Nicolas

Abstract

After half a century of debate, superconductivity in doped SrTiO3 has come to the fore again with the discovery of interfacial superconductivity in the LaAlO3 /SrTiO3 heterostructures. While these interfaces share the interesting properties of bulk SrTiO3, quantum confinement generates a complex band structure involving bands with different orbital symmetries whose occupancy is tunable by electrostating doping. Multigap superconductivity has been predicted to emerge in LaAlO3 /SrTiO3 at large doping, with a Bose-Einstein condensation character at the Lifshtiz transition. In this article, we report on the measurement of the upper critical magnetic field Hc2 of superconducting (110)-oriented LaAlO3 /SrTiO3 heterostructures and evidence a two-gap superconducting regime at high doping. Our results are quantitatively explained by a theoretical model based on the formation of an unconventional s±-wave superconducting state with a repulsive coupling between the two condensates.

Published
2022

46. Picoradiant tiltmeter and direct ground tilt measurements at the Sos Enattos site

Author

Allocca, Annalisa, primary, Avino, Saverio, additional, Calloni, Enrico, additional, Caprara, Sergio, additional, Carpinelli, Massimo, additional, D’Urso, Domenico, additional, De Laurentis, Martina, additional, De Rosa, Rosario, additional, Errico, L., additional, Gagliardi, G., additional, Grilli, Marco, additional, Mangano, Valentina, additional, Marsella, Maria, additional, Naticchioni, Luca, additional, Pasqualetti, Antonio, additional, Pepe, Gianpiero, additional, Perciballi, Maurizio, additional, Pesenti, Luca, additional, Puppo, Paola, additional, Rapagnani, Piero, additional, Ricci, Fulvio, additional, Rosa, Luigi, additional, Rovelli, Carlo, additional, Rozza, Davide, additional, Ruggi, P., additional, Saini, Naurang L., additional, Sequino, Valeria, additional, Sipala, Valeria, additional, Stornaiuolo, Daniela, additional, and Tafuri, Francesco, additional

Published
2021
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47. Restored strange metal phase through suppression of charge density waves in underdoped YBa 2 Cu 3 O 7–δ

Author

Wahlberg, Eric, primary, Arpaia, Riccardo, additional, Seibold, Götz, additional, Rossi, Matteo, additional, Fumagalli, Roberto, additional, Trabaldo, Edoardo, additional, Brookes, Nicholas B., additional, Braicovich, Lucio, additional, Caprara, Sergio, additional, Gran, Ulf, additional, Ghiringhelli, Giacomo, additional, Bauch, Thilo, additional, and Lombardi, Floriana, additional

Published
2021
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50. Finite-Frequency Dissipation in Two-Dimensional Superconductors with Disorder at the Nanoscale

Author

Venditti, Giulia, Maccari, Ilaria, Grilli, Marco, Caprara, Sergio, Venditti, Giulia, Maccari, Ilaria, Grilli, Marco, and Caprara, Sergio

Abstract

Two-dimensional superconductors with disorder at the nanoscale can host a variety of intriguing phenomena. The superconducting transition is marked by a broad percolative transition with a long tail of the resistivity as function of the temperature. The fragile filamentary superconducting clusters, forming at low temperature, can be strengthened further by proximity effect with the surrounding metallic background, leading to an enhancement of the superfluid stiffness well below the percolative transition. Finite-frequency dissipation effects, e.g., related to the appearance of thermally excited vortices, can also significantly contribute to the resulting physics. Here, we propose a random impedance model to investigate the role of dissipation effects in the formation and strengthening of fragile superconducting clusters, discussing the solution within the effective medium theory., QC 20210916

Published
2021
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