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1. Tuning the ground state of cuprate high-critical-temperature superconducting thin films by nanofaceted substrates

Author

Mirarchi, G., Arpaia, R., Wahlberg, E., Bauch, T., Kalaboukhov, A., Caprara, S., Di Castro, C., Grilli, M., Lombardi, F., and Seibold, G.

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

Anisotropic transport properties have been assessed in a number of cuprate superconductors, providing evidence for a nematic state. Here, we analyze recent experimental data for ultrathin YBa$_2$Cu$_3$O$_{7-x}$ (YBCO) films, where nematicity is induced via strain engineering, leading to a suppression of charge density wave scattering along the orthorhombic a-axis and a concomitant enhancement of strange metal behavior along the b-axis. It is shown that the anisotropic properties strongly depend on the substrate, which we characterize by atomic force microscopy (AFM). Based on the AFM data, we provide a microscopic model that can account for the absence (presence) of nematicity and the resulting transport properties in films grown on SrTiO$_3$ (MgO) substrates., Comment: 7 pages, 5 figures

Published
2023

2. Signature of quantum criticality in cuprates by charge density fluctuations

Author

Arpaia, R., Martinelli, L., Sala, M. Moretti, Caprara, S., Nag, A., Brookes, N. B., Camisa, P., Li, Q., Gao, Q., Zhou, X., Garcia-Fernandez, M., Zhou, K. -J., Schierle, E., Bauch, T., Peng, Y. Y., Di Castro, C., Grilli, M., Lombardi, F., Braicovich, L., and Ghiringhelli, G.

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

The universality of the strange metal phase in many quantum materials is often attributed to the presence of a quantum critical point (QCP), a zero-temperature phase transition ruled by quantum fluctuations. In cuprates, where superconductivity hinders direct QCP observation, indirect evidence comes from the identification of fluctuations compatible with the strange metal phase. Here we show that the recently discovered charge density fluctuations (CDF) possess the right properties to be associated to a quantum phase transition. Using resonant x-ray scattering, we studied the CDF in two families of cuprate superconductors across a wide doping range (up to $p$=0.22). At $p^*\approx$0.19, the putative QCP, the CDF intensity peaks, and the characteristic energy $\Delta$ is minimum, marking a wedge-shaped region in the phase diagram indicative of a quantum critical behavior, albeit with anomalies. These findings strengthen the role of charge order in explaining strange metal phenomenology and provide insights into high-temperature superconductivity., Comment: 36 pages, 4 figures, 9 supplementary figures

Published
2022
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3. Disorder-driven dissipative quantum criticality as a source of strange metal behavior

Author

Grilli, M., Di Castro, C., Seibold, G., and Caprara, S.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The strange metal behavior, usually characterized by a linear-in-temperature (T) resistivity, is a still unsolved mystery in solid-state physics. Usually it is associated with the proximity to a quantum critical point (a second order transition at temperature T = 0) focusing on the related divergent order parameter correlation length. Here, we propose a paradigmatic shift, focusing on a divergent characteristic time scale due to a divergent dissipation acting on the fluctuating critical modes, while their correlation length stays finite. To achieve a divergent dissipation, we propose a mechanism based on the coupling between a local order parameter fluctuation and electronic diffusive modes, that accounts both for the linear-in-T resistivity and for the logarithmic specific heat versus temperature ratio C_V/T ~ log(1/T), down to low temperatures., Comment: 5 pages 3 figures

Published
2022

5. Casimir energy for N superconducting cavities: a model for the YBCO (BSCCO)

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. P., Perciballi, M., Pesenti, L., Puppo, P., Rapagnani, P., Ricci, F., Rosa, L., Rovelli, C., Rozza, D., Ruggi, P., Saini, N. L., Sequino, V., Sipala, V., Stornaiuolo, D., Tafuri, F., Tagliacozzo, A., Melo, I. Tosta E, and Trozzo, L.

Subjects
Quantum Physics, High Energy Physics - Theory
Abstract

In this paper we study the Casimir energy of a sample made by N cavities, with N >> 1, across the transition from the metallic to the superconducting phase of the constituting plates. After having characterized the energy for the configuration in which the layers constituting the cavities are made by dielectric and for the configuration in which the layers are made by plasma sheets, we concentrate our analysis on the latter. It represents the final step towards the macroscopic characterization of a "multi cavity" (with N large) necessary to fully understand the behaviour of the Casimir energy of a YBCO (or a BSCCO) sample across the transition. Our analysis is especially useful to the Archimedes experiment, aimed at measuring the interaction of the electromagnetic vacuum energy with a gravitational field. To this purpose, we aim at modulating the Casimir energy of a layered structure, the multi cavity, by inducing a transition from the metallic to the superconducting phase. After having characterized the Casimir energy of such a structure for both the metallic and the superconducting phase, we give an estimate of the modulation of the energy across the transition., Comment: 14 pages, 6 figures, 1 table

Published
2022

6. Dissipation-driven strange metal behavior

Author

Caprara, S., Di Castro, C., Mirarchi, G., Seibold, G., and Grilli, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Anomalous metallic properties are often observed in the proximity of quantum critical points (QCPs), with violation of the Fermi Liquid paradigm. We propose a scenario where, due to the presence of a nearby QCP, dynamical fluctuations of the order parameter with finite correlation length mediate a nearly isotropic scattering among the quasiparticles over the entire Fermi surface. This scattering produces an anomalous metallic behavior, which is extended to the lowest temperatures by an increase of the damping of the fluctuations. We phenomenologically identify one single parameter ruling this increasing damping when the temperature decreases, accounting for both the linear-in-temperature resistivity and the seemingly divergent specific heat observed, e.g., in high-temperature superconducting cuprates and some heavy-fermion metals., Comment: 5 pages, 3 figures

Published
2020

7. Doping-dependent competition between superconductivity and polycrystalline charge density waves

Author

Caprara, S., Grilli, M., Lorenzana, J., and Leridon, B.

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

From systematic analysis of the high pulsed magnetic field resistance data of La$_{2-x}$Sr$_x$CuO$_{4}$ thin films, we extract an experimental phase diagram for several doping values ranging from the very underdoped to the very overdoped regimes. Our analysis highlights a competition between charge density waves and superconductivity which is ubiquitous between $x=0.08$ and $x=0.19$ and produces the previously observed double step transition. When suppressed by a strong magnetic field, superconductivity is resilient for two specific doping ranges centered around respectively $x\approx 0.09$ and $x\approx 0.19$ and the characteristic temperature for the onset of the competing charge density wave phase is found to vanish above $x = 0.19$. At $x=1/8$ the two phases are found to coexist exactly at zero magnetic field., Comment: 13 figures. Changes from previous version are in red. A few clarifications and a discussion about the different materials were added together with additional references

Published
2019
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8. Strange metal behaviour from charge density fluctuations in cuprates

Author

Seibold, G., Arpaia, R., Peng, Y. Y., Fumagalli, R., Braicovich, L., Di Castro, C., Grilli, M., Ghiringhelli, G., and Caprara, S.

Subjects
Condensed Matter - Superconductivity
Abstract

Besides the mechanism responsible for high critical temperature superconductivity, the grand unresolved issue of the cuprates is the occurrence of a strange metallic state above the so-called pseudogap temperature $T^*$. Even though such state has been successfully described within a phenomenological scheme, the so-called Marginal Fermi-Liquid theory, a microscopic explanation is still missing. However, recent resonant X-ray scattering experiments identified a new class of charge density fluctuations characterized by low characteristic energies and short correlation lengths, which are related to the well-known charge density waves. These fluctuations are present over a wide region of the temperature-vs-doping phase diagram and extend well above $T^*$. Here we investigate the consequences of charge density fluctuations on the electron and transport properties and find that they can explain the strange metal phenomenology. Therefore, charge density fluctuations are likely the long-sought microscopic mechanism underlying the peculiarities of the metallic state of cuprates., Comment: 18 pages including Supplementary Informations, 10 figures

Published
2019
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9. Protected superconductivity at the boundaries of charge-density-wave domains

Author

Leridon, B., Vanacken, J., Moshchalkov, V., Vignolle, B., Porwal, R., Budhani, R. C., Caprara, S., Attanasi, A., Grilli, M., and Lorenzana, J.

Subjects
Condensed Matter - Superconductivity
Abstract

Solid 4He may acquire superfluid characteristics due to the frustration of the solid phase at grain boundaries. Here, we show that an analogous effect occurs in systems with competition among charge-density-waves (CDWs) and superconductivity in the presence of disorder, as cuprate or dichalcogenide superconductors. The CDWs breaks apart in domains with topologically protected filamentary superconductivity (FSC) at the interfaces. Transport experiments carried out in underdoped cuprates with the magnetic field acting as a control parameter are shown to be in excellent agreement with the theoretical expectation. At high temperature and low fields we find a transition from CDWs to fluctuating superconductivity, weakly affected by disorder, while at high field and low temperature the protected filamentary superconducting phase appears in close analogy with "glassy" supersolid phenomena in 4He.

Published
2019
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10. The Archimedes Experiment, results on the thermal modulation system

Author

Mangano, V, 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, 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, Mangano V., 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., Marsella M., Naticchioni L., Pasqualetti A., Pepe G. P., 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., Mangano, V, 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, 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, Mangano V., 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., Marsella M., Naticchioni L., Pasqualetti A., Pepe G. P., 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., and Trozzo L.

Abstract

The scientific objective of Archimedes is to weigh the vacuum, i.e. to investigate the role of the interaction of vacuum fluctuations with the force of gravity, using a high sensitivity balance. It will measure the small weight variations induced in two high-temperature superconductors that have the property of "trapping" or "expelling" vacuum energy when their temperatures are greater or lower than their critical temperatures (thermal modulation). Only the radiative heat exchange mechanism must be used to remove or add thermal energy to the sample as it must be isolated from any external interaction that could prevent the reversibility of the thermodynamic transformation or generate a spurious force on the sample. A cryogenic prototype at liquid nitrogen temperature is being optimised for performing thermal modulation with the help of a FEM analysis. The characterisation of different high-temperature superconductors is also an important study to be explored. The most recent results will be presented.

Published
2024

11. Dynamical charge density fluctuations pervading the phase diagram of a Cu-based high-Tc superconductor

Author

Arpaia, R., Caprara, S., Fumagalli, R., De Vecchi, G., Peng, Y. Y., Andersson, E., Betto, D., De Luca, G. M., Brookes, N. B., Lombardi, F., Salluzzo, M., Braicovich, L., Di Castro, C., Grilli, M., and Ghiringhelli, G.

Subjects
Condensed Matter - Superconductivity
Abstract

Charge density waves are a common occurrence in all families of high critical temperature superconducting cuprates. Although consistently observed in the underdoped region of the phase diagram and at relatively low temperatures, it is still unclear to what extent they influence the unusual properties of these systems. Using resonant x-ray scattering we carefully determined the temperature dependence of charge density modulations in (Y,Nd)Ba$_2$Cu$_3$O$_{7-{\delta}}$ for three doping levels. We discovered short-range dynamical charge density fluctuations besides the previously known quasi-critical charge density waves. They persist up to well above the pseudogap temperature T*, are characterized by energies of few meV and pervade a large area of the phase diagram, so that they can play a key role in shaping the peculiar normal-state properties of cuprates., Comment: 34 pages, 4 figures, 11 supplementary figures

Published
2018
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12. Single-band to two-band superconductivity transition in two-dimensional oxide interfaces

Author

Singh, G., Jouan, A., Herranz, G., Scigaj, M., Sanchez, F., Benfatto, L., Caprara, S., Grilli, M., Saiz, G., Couedo, F., Feuillet-Palma, C., Lesueur, J., and Bergeal, N.

Subjects
Condensed Matter - Superconductivity
Abstract

In multiorbital materials, superconductivity can exhibit new exotic forms that include several coupled condensates. In this context, quantum confinement in two-dimensional superconducting oxide interfaces offers new degrees of freedom to engineer the band structure and selectively control 3d-orbitals occupancy by electrostatic doping. However, the presence of multiple superconducting condensates in these systems has not yet been demonstrated. Here, we use resonant microwave transport to extract the superfluid stiffness of the (110)-oriented LaAlO3/SrTiO3 interface in the entire phase diagram. We evidence a transition from single-band to two-band superconductivity driven by electrostatic doping, which we relate to the filling of the different 3d-orbitals based on numerical simulations of the quantum well. Interestingly, the superconducting transition temperature decreases while the second band is populated, which challenges the Bardeen-Cooper-Schrieffer theory. To explain this behaviour, we propose that the superconducting order parameters associated with the two bands have opposite signs with respect to each other.

Published
2018

13. Theory of the spin galvanic effect at oxide interfaces

Author

Seibold, G., Caprara, S., Grilli, M., and Raimondi, R.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The spin galvanic effect (SGE) describes the conversion of a non-equilibrium spin polarization into a transverse charge current. Recent experiments have demonstrated a large conversion efficiency for the two-dimensional electron gas formed at the interface between two insulating oxides, LaAlO$_3$ and SrTiO$_3$. Here we analyze the SGE for oxide interfaces within a three-band model for the Ti t$_{2g}$ orbitals which displays an interesting variety of effective spin-orbit couplings in the individual bands that contribute differently to the spin-charge conversion. Our analytical approach is supplemented by a numerical treatment where we also investigate the influence of disorder and temperature, which turns out to be crucial to provide an appropriate description of the experimental data., Comment: 5 pages, 3 figures

Published
2017
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14. Negative electronic compressibility and nanoscale inhomogeneity in ionic-liquid gated two-dimensional superconductors

Author

Dezi, G., Scopigno, N., Caprara, S., and Grilli, M.

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

When the electron density of highly crystalline thin films is tuned by chemical doping or ionic liq- uid gating, interesting effects appear including unconventional superconductivity, sizeable spin-orbit coupling, competition with charge-density waves, and a debated low-temperature metallic state that seems to avoid the superconducting or insulating fate of standard two-dimensional electron systems. Some experiments also find a marked tendency to a negative electronic compressibility. We suggest that this indicates an inclination for electronic phase separation resulting in a nanoscopic inhomo- geneity. Although the mild modulation of the inhomogeneous landscape is compatible with a high electron mobility in the metallic state, this intrinsically inhomogeneous character is highlighted by the peculiar behaviour of the metal-to-superconductor transition. Modelling the system with super- conducting puddles embedded in a metallic matrix, we fit the peculiar resistance vs. temperature curves of systems like TiSe2, MoS2, and ZrNCl. In this framework also the low-temperature debated metallic state finds a natural explanation in terms of the pristine metallic background embedding non-percolating superconducting clusters. An intrinsically inhomogeneous character naturally raises the question of the formation mechanism(s). We propose a mechanism based on the interplay be- tween electrons and the charges of the gating ionic liquid., Comment: substantially modified presentation: 12 pages 7 figures

Published
2017
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15. Re-entrant charge order in overdoped (Bi,Pb)$_{2.12}$Sr$_{1.88}$CuO$_{6+\delta}$ outside the pseudogap regime

Author

Peng, Y. Y., Fumagalli, R., Ding, Y., Minola, M., Caprara, S., Betto, D., De Luca, G. M., Kummer, K., Lefrançois, E., Salluzzo, M., Suzuki, H., Tacon, M. Le, Zhou, X. J., Brookes, N. B., Keimer, B., Braicovich, L., Grilli, M., and Ghiringhelli, G.

Subjects
Condensed Matter - Superconductivity
Abstract

Charge modulations are considered as a leading competitor of high-temperature superconductivity in the underdoped cuprates, and their relationship to Fermi surface reconstructions and to the pseudogap state is an important subject of current research. Overdoped cuprates, on the other hand, are widely regarded as conventional Fermi liquids without collective electronic order. For the overdoped (Bi,Pb)2.12Sr1.88CuO6+{\delta} (Bi2201) high-temperature superconductor, here we report resonant x-ray scattering measurements revealing incommensurate charge order reflections, with correlation lengths of 40-60 lattice units, that persist up to at least 250K. Charge order is markedly more robust in the overdoped than underdoped regime but the incommensurate wave vectors follow a common trend; moreover it coexists with a single, unreconstructed Fermi surface, without pseudogap or nesting features, as determined from angle-resolved photoemission spectroscopy. This re-entrant charge order is reproduced by model calculations that consider a strong van Hove singularity within a Fermi liquid framework., Comment: 11 pages, 5 figures

Published
2017
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16. Competition between electron pairing and phase coherence in superconducting interfaces

Author

Singh, G., Jouan, A., Benfatto, L., Couedo, F., Kumar, P., Dogra, A., Budhani, R., Caprara, S., Grilli, M., Lesne, E., Barthelemy, A., Bibes, M., Feuillet-Palma, C., Lesueur, J., and Bergeal, N.

Subjects
Condensed Matter - Superconductivity
Abstract

The large diversity of exotic electronic phases displayed by two-dimensional superconductors confronts physicists with new challenges. These include the recently discovered quantum Griffith singularity in atomic Ga films, topological phases in proximized topological insulators and unconventional Ising pairing in transition metal dichalcogenide layers. In LaAlO3/SrTiO3 heterostructures, a gate tunable superconducting electron gas is confined in a quantum well at the interface between two insulating oxides. Remarkably, the gas coexists with both magnetism and strong Rashba spin-orbit coupling and is a candidate system for the creation of Majorana fermions. However, both the origin of superconductivity and the nature of the transition to the normal state over the whole doping range remain elusive. Missing such crucial information impedes harnessing this outstanding system for future superconducting electronics and topological quantum computing. Here we show that the superconducting phase diagram of LaAlO3/SrTiO3 is controlled by the competition between electron pairing and phase coherence. Through resonant microwave experiments, we measure the superfluid stiffness and infer the gap energy as a function of carrier density. Whereas a good agreement with the Bardeen-Cooper-Schrieffer (BCS) theory is observed at high carrier doping, we find that the suppression of Tc at low doping is controlled by the loss of macroscopic phase coherence instead of electron pairing as in standard BCS theory. We find that only a very small fraction of the electrons condenses into the superconducting state and propose that this corresponds to the weak filling of a high-energy dxz/yz band, more apt to host superconductivity

Published
2017
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17. Density inhomogeneities and Rashba spin-orbit coupling interplay in oxide interfaces

Author

Bovenzi, N., Caprara, S., Grilli, M., Raimondi, R., Scopigno, N., and Seibold, G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

There is steadily increasing evidence that the two-dimensional electron gas (2DEG) formed at the interface of some insulating oxides like LaAlO3/SrTiO3 and LaTiO3/SrTiO3 is strongly inhomogeneous. The inhomogeneous distribution of electron density is accompanied by an inhomogeneous distribution of the (self-consistent) electric field confining the electrons at the interface. In turn this inhomogeneous transverse electric field induces an inhomogeneous Rashba spin-orbit coupling (RSOC). After an introductory summary on two mechanisms possibly giving rise to an electronic phase separation accounting for the above inhomogeneity,we introduce a phenomenological model to describe the density-dependent RSOC and its consequences. Besides being itself a possible source of inhomogeneity or charge-density waves, the density-dependent RSOC gives rise to interesting physical effects like the occurrence of inhomogeneous spin-current distributions and inhomogeneous quantum-Hall states with chiral "edge" states taking place in the bulk of the 2DEG. The inhomogeneous RSOC can also be exploited for spintronic devices since it can be used to produce a disorder-robust spin Hall effect., Comment: 13 pages, 15 figures

Published
2017
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18. Casimir energy for two and three superconducting coupled cavities

Author

Rosa, L., Avino, S., Calloni, E., Caprara, S., De Laurentis, M., De Rosa, R., Esposito, Giampiero, Grilli, M., Majorana, E., Pepe, G. P., Petrarca, S., Puppo, P., Rapagani, P., Ricci, F., Rovelli, C., Ruggi, P., Saini, N. L., Stornaiolo, C., and Tafuri, F.

Subjects
High Energy Physics - Theory, High Energy Physics - Phenomenology, Quantum Physics
Abstract

In this paper we study the behavior of the Casimir energy of a "multi-cavity" across the transition from the metallic to the superconducting phase of the constituting plates. Our analysis is carried out in the framework of the ARCHIMEDES experiment, aiming at measuring the interaction of the electromagnetic vacuum energy with a gravitational field. For this purpose it is foreseen to modulate the Casimir energy of a layered structure composing a multi-cavity coupled system by inducing a transition from the metallic to the superconducting phase. This implies a thorough study of the behavior of the cavity, where normal metallic layers are alternated with superconducting layers, across the transition. Our study finds that, because of the coupling between the cavities, mainly mediated by the transverse magnetic modes of the radiation field, the variation of energy across the transition can be very large., Comment: 17 pages, 3 figures. Abstract and title slightly modified. Figures and comments added

Published
2017

20. Pseudogap and (an)isotropic scattering in the fluctuating charge-density wave phase of cuprates

Author

Caprara, S., Di Castro, C., Grilli, M., and Seibold, G.

Subjects
Condensed Matter - Superconductivity
Abstract

We present a general scenario for high-temperature superconducting cuprates, based on the presence of dynamical charge density waves (CDWs) and to the occurrence of a CDW quantum critical point, which occurs, e.g., at doping p~0.16 in YBCO. In this framework, even the pseudogap temperature T* is interpreted in terms of a reduction of the density of states due to incipient CDW and, at lower temperature to the possible formation of incoherent superconducting pairs. The dynamically fluctuating character of CDW accounts for the different temperatures at which the pseudogap (T*), the CDW onset revealed by X-ray scattering (T_{ons}(p)), and the static three-dimensional CDW ordering appear. We also investigate the anisotropic character of the CDW-mediated scattering. We find that this is strongly anisotropic only close to the CDW quantum critical point (QCP) at low temperature and very low energy. It rapidly becomes nearly isotropic and marginal-Fermi-liquid-like away from the CDW QCP and at finite (even rather small) energies. This may reconcile the interpretation of Hall measurements in terms of anisotropic CDW scattering with recent photoemission experiments., Comment: 6 pages, 3 figures. arXiv admin note: text overlap with arXiv:1604.07852

Published
2016
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21. Dynamical charge density waves rule the phase diagram of cuprates

Author

Caprara, S., Di Castro, C., Seibold, G., and Grilli, M.

Subjects
Condensed Matter - Superconductivity
Abstract

In the last few years charge density waves (CDWs) have been ubiquitously observed in high-temperature superconducting cuprates and are now the most investigated among the competing orders in the still hot debate on these systems. A wealth of new experimental data raise several fundamental issues that challenge the various theoretical proposals. Here, we account for the complex experimental temperature vs. doping phase diagram and we provide a coherent scenario explaining why different CDW onset curves are observed by different experimental probes and seem to extrapolate at zero temperature into seemingly different quantum critical points (QCPs) in the intermediate and overdoped region. We also account for the pseudogap and its onset temperature T*(p) on the basis of dynamically fluctuating CDWs. The nearly singular anisotropic scattering mediated by these fluctuations also account for the rapid changes of the Hall number seen in experiments and provides the first necessary step for a possible Fermi surface reconstruction fully establishing at lower doping. Finally we show that phase fluctuations of the CDWs, which are enhanced in the presence of strong correlations near the Mott insulating phase, naturally account for the disappearance of the CDWs at low doping with yet another QCP., Comment: 13 pages, 7 figures

Published
2016
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22. The clinical utility and epidemiological impact of self-testing for SARS-CoV-2 using antigen detecting diagnostics: a systematic review and meta-analysis

Author

Brümmer, LE, Zorger, AM, Worbes, K, McGrath, S, Erdmann, C, Tolle, H, Katzenschlager, S, Yerlikaya, S, Grilli, M, Pollock, NR, Erkosar, B, Mace, A, Ongarello, S, Johnson, CC, Cunningham, J, Sacks, JA, Skoetz, N, Lee, RA, Denkinger, CM, Brümmer, LE, Zorger, AM, Worbes, K, McGrath, S, Erdmann, C, Tolle, H, Katzenschlager, S, Yerlikaya, S, Grilli, M, Pollock, NR, Erkosar, B, Mace, A, Ongarello, S, Johnson, CC, Cunningham, J, Sacks, JA, Skoetz, N, Lee, RA, and Denkinger, CM

Published
2024

23. Archimedes: a feasibility study of an experiment to weigh the electromagnetic vacuum

Author

Calloni, Enrico, Caprara, S., De Laurentis, Martina, Esposito, Giampiero, Grilli, M., Majorana, E., Pepe, G. P., Petrarca, S., Puppo, Paola, Rapagnani, P., Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Ruggi, P., Saini, N. L., Stornaiolo, Cosimo, and Tafuri, Francesco

Subjects
General Relativity and Quantum Cosmology, Quantum Physics
Abstract

Archimedes is a feasibility study of a future experiment to ascertain the interaction of vacuum fluctuations with gravity. The experiment should measure the force that the earth's gravitational field exerts on a Casimir cavity by using a small force detector. Here we analyse the main parameters of the experiment and we present its conceptual scheme, which overcomes in principle the most critical problems., Comment: 3 pages, MG14 Conference

Published
2015

24. The Archimedes experiment

Author

Calloni, Enrico, Caprara, S., De Laurentis, Martina, Esposito, Giampiero, Grilli, M., Majorana, Ettore, Pepe, G. P., Petrarca, S., Puppo, Paola, Rapagnini, P., Ricci, F., Rosa, Luigi, Rovelli, Carlo, Ruggi, P., Saini, N. L., Stornaiolo, Cosimo, and Tafuri, Francesco

Subjects
General Relativity and Quantum Cosmology, Physics - Instrumentation and Detectors
Abstract

Archimedes is an INFN-funded pathfinder experiment aimed at verifying the feasibility of measuring the interaction of vacuum fluctuations with gravity. The final experiment will measure the force exerted by the gravitational field on a Casimir cavity whose vacuum energy is modulated with a superconductive transition, by using a balance as a small force detector. Archimedes is a two-year project devoted to test the most critical experimental aspects, in particular the balance resonance frequency and quality factor, the thermal modulation efficiency and the superconductive sample realization., Comment: 4 pages, 2 figures

Published
2015
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25. Confinement of superconducting fluctuations due to emergent electronic inhomogeneities

Author

Carbillet, C., Caprara, S., Grilli, M., Brun, C., Cren, T., Debontridder, F., Vignolle, B., Tabis, W., Demaille, D., Largeau, L., Ilin, K., Siegel, M., Roditchev, D., and Leridon, B.

Subjects
Condensed Matter - Superconductivity
Abstract

The microscopic nature of an insulating state in the vicinity of a superconducting state, in the presence of disorder, is a hotly debated question. While the simplest scenario proposes that Coulomb interactions destroy the Cooper pairs at the transition, leading to localization of single electrons, an alternate possibility supported by experimental observations suggests that Cooper pairs instead directly localize. The question of the homogeneity, granularity, or possibly glassiness of the material on the verge of this transition is intimately related to this fundamental issue. Here, by combining macroscopic and nano-scale studies of superconducting ultrathin NbN films, we reveal nanoscopic electronic inhomogeneities that emerge when the film thickness is reduced. In addition, while thicker films display a purely two-dimensional behaviour in the superconducting fluctuations, we demonstrate a zero-dimensional regime for the thinner samples precisely on the scale of the inhomogeneities. Such behavior is somehow intermediate between the Fermi and Bose insulator paradigms and calls for further investigation to understand the way Cooper pairs continuously evolve from a bound state of fermionic objects into localized bosonic entities., Comment: 29 pages 9 figures

Published
2015
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26. Density driven fluctuations in a two-dimensional superconductor

Author

Hurand, S., Biscaras, J., Bergeal, N., Feuillet-Palma, C., Singh, G., Jouan, A., Rastogi, A., Dogra, A., Kumar, P., Budhani, R. C., Scopigno, N., Caprara, S., Grilli, M., and Lesueur, J.

Subjects
Condensed Matter - Superconductivity
Abstract

In the vicinity of a phase transition, the order parameter starts fluctuating before vanishing at the critical point. The fluctuation regime, i.e. the way the ordered phase disappears, is a characteristics of a transition, and determines the universality class it belongs to. This is valid for thermal transitions, but also for zero temperature Quantum Phase Transitions (QPT). In the case of superconductivity, the order parameter has an amplitude and a phase, which can both fluctuate according to well identified scenarios. The Ginzburg-Landau theory and its extensions describe the fluctuating regime of regular metallic superconductors, and the associated dynamics of the pair amplitude and the phase. When the system is two-dimensional and/or very disordered, phase fluctuations dominate. Here, we address the possibility that a new type of fluctuations occurs in superconductors with an anomalous dynamics. In particular we show that the superconducting to metal QPT that occurs upon changing the gate voltage in two-dimensional electron gases at LAO/STO and LTO/STO interfaces displays anomalous scaling properties, which can be explained by density driven superconducting critical fluctuations. A Finite Size Scaling (FSS) analysis reveals that the product z.nu (nu is the correlation length exponent and z the dynamical critical one) is z.nu = 3/2. We argue that critical superconducting fluctuations acquire an anomalous dynamics with z=3, since they couple to density ones in the vicinity of a spontaneous electronic phase separation, and that nu=1/2 corresponds to the mean-field value. This approach strongly departs from the conventional z=1 scenario in disordered 2D systems based on long-range Coulomb interactions with dominant phase fluctuations. This scenario can explain recent data in LSCO ultra-thin films, and apply to a whole class of two-dimensional superconductors., Comment: 11 pages, 4 figures

Published
2015

27. Phase separation from electron confinement at oxide interfaces

Author

Scopigno, N., Bucheli, D., Caprara, S., Biscaras, J., Bergeal, N., Lesueur, J., and Grilli, M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Oxide heterostructures are of great interest both for fundamental and applicative reasons. In particular the two-dimensional electron gas at the LaAlO$_3$/SrTiO$_3$ or LaTiO$_3$/SrTiO$_3$ interfaces displays many different physical properties and functionalities. However there are clear indications that the interface electronic state is strongly inhomogeneous and therefore it is crucially relevant to investigate possible intrinsic electronic mechanisms underlying this inhomogeneity. Here the electrostatic potential confining the electron gas at the interface is calculated self-consistently, finding that the electron confinement at the interface may induce phase separation, to avoid a thermodynamically unstable state with a negative compressibility. This provides a generic robust and intrinsic mechanism for the experimentally observed inhomogeneous character of these interfaces., Comment: 8 pages and 4 figures

Published
2015
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28. Electronic polymers and soft-matter-like broken symmetries in underdoped cuprates

Author

Capati, M., Caprara, S., Di Castro, C., Grilli, M., Seibold, G., and Lorenzana, J.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics, Condensed Matter - Strongly Correlated Electrons
Abstract

Empirical evidence in heavy fermion, pnictide, and other systems suggests that unconventional superconductivity appears associated to some form of real-space electronic order. For the cuprates, despite several proposals, the emergence of order in the phase diagram between the commensurate antiferromagnetic state and the superconducting state is not well understood. Here we show that in this regime doped holes assemble in "electronic polymers." Within a Monte Carlo study we find, that in clean systems by lowering the temperature the polymer melt condenses first in a smectic state and then in a Wigner crystal both with the addition of inversion symmetry breaking. Disorder blurs the positional order leaving a robust inversion symmetry breaking and a nematic order, accompanied by vector chiral spin order and with the persistence of a thermodynamic transition. Such electronic phases, whose properties are reminiscent of soft-matter physics, produce charge and spin responses in good accord with experiments., Comment: 10 pages, 4 figures plus supplementary information

Published
2015
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29. Signatures of nematic quantum critical fluctuations in the Raman spectra of lightly doped cuprates

Author

Caprara, S., Colonna, M., Di Castro, C., Hackl, R., Muschler, B., Tassini, L., and Grilli, M.

Subjects
Condensed Matter - Superconductivity
Abstract

We consider the lightly doped cuprates Y$_{0.97}$Ca$_{0.03}$BaCuO$_{6.05}$ and La$_{2-x}$Sr$_x$CuO$_4$ (with $x=0.02$,0.04), where the presence of a fluctuating nematic state has often been proposed as a precursor of the stripe (or, more generically, charge-density wave) phase, which sets in at higher doping. We phenomenologically assume a quantum critical character for the longitudinal and transverse nematic, and for the charge-ordering fluctuations, and investigate the effects of these fluctuations in Raman spectra. We find that the longitudinal nematic fluctuations peaked at zero transferred momentum account well for the anomalous Raman absorption observed in these systems in the $B_{2g}$ channel, while the absence of such effect in the $B_{1g}$ channel may be due to the overall suppression of Raman response at low frequencies, associated with the pseudogap. While in Y$_{0.97}$Ca$_{0.03}$BaCuO$_{6.05}$ the low-frequency lineshape is fully accounted by longitudinal nematic collective modes alone, in La$_{2-x}$Sr$_x$CuO$_4$ also charge-ordering modes with finite characteristic wavevector are needed to reproduce the shoulders observed in the Raman response. This different involvement of the nearly critical modes in the two materials suggests a different evolution of the nematic state at very low doping into the nearly charge-ordered state at higher doping., Comment: 12 pages with 10 figures, to appear in Phys. Rev. B 2015

Published
2015
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30. Interplay between density and superconducting quantum critical fluctuations

Author

Caprara, S., Bergeal, N., Lesueur, J., and Grilli, M.

Subjects
Condensed Matter - Superconductivity
Abstract

We consider the case of a density-driven metal-superconductor transition in the proximity of an electronic phase separation. In particular we investigate the interplay between superconducting fluctuations and density fluctuations, which become quantum critical when the electronic phase separation vanishes at zero temperature into a quantum critical point. In this situation the critical dynamical density fluctuations strongly affect the dynamics of the Cooper pair fluctuations, which acquire a more singular character with a z=3 dynamical critical index. This gives rise to a scenario that possibly rules the disappearance of superconductivity when the electron density is reduced by elecrostatic gating at the LaAlO3/SrTiO3 interface., Comment: 5 pages, 4 figures

Published
2015
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31. Field-effect control of superconductivity and Rashba spin-orbit coupling in top-gated LaAlO3/SrTiO3 devices

Author

Hurand, S., Jouan, A., Feuillet-Palma, C., Singh, G., Biscaras, J., Lesne, E., Reyen, N., Barthelemy, A., Bibes, M., Ulysse, C., Lafosse, X., Pannetier-Lecoeur, M., Caprara, S., Grilli, M., Lesueur, J., and Bergeal, N.

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

The recent development in the fabrication of artificial oxide heterostructures opens new avenues in the field of quantum materials by enabling the manipulation of the charge, spin and orbital degrees of freedom. In this context, the discovery of two-dimensional electron gases (2-DEGs) at LAlO3/SrTiO3 interfaces, which exhibit both superconductivity and strong Rashba spin-orbit coupling (SOC), represents a major breakthrough. Here, we report on the realisation of a field-effect LaAlO3/SrTiO3 device, whose physical properties, including superconductivity and SOC, can be tuned over a wide range by a top-gate voltage. We derive a phase diagram, which emphasises a field-effect-induced superconductor-to-insulator quantum phase transition. Magneto-transport measurements indicate that the Rashba coupling constant increases linearly with electrostatic doping. Our results pave the way for the realisation of mesoscopic devices, where these two properties can be manipulated on a local scale by means of top-gates.

Published
2015

32. Inhomogeneous multi-carrier superconductivity at LaXO3/SrTiO3 (X=Al or Ti) oxide interfaces

Author

Caprara, S., Bucheli, D., Scopigno, N., Bergeal, N., Biscaras, J., Hurand, S., Lesueur, J., and Grilli, M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Several experiments reveal the inhomogeneous character of the superconducting state that occurs when the carrier density of the two-dimensional electron gas formed at the LaXO3/SrTiO3 (X=Al or Ti) interface is tuned above a threshold value by means of gating. Re-analyzing previous measurements, that highlight the presence of two kinds of carriers, with low and high mobility, we shall provide a description of multi-carrier magneto-transport in an inhomogeneous two-dimensional electron gas, gaining insight into the properties of the physics of the systems under investigation. We shall then show that the measured resistance, superfluid density, and tunneling spectra result from the percolative connection of superconducting "puddles" with randomly distributed critical temperatures, embedded in a weakly localizing metallic matrix. We shall also show that this scenario is consistent with the characteristics of the superconductor-to-metal transition driven by a magnetic field. A multi-carrier description of the superconducting state, within a weak-coupling BCS-like model, will be finally discussed., Comment: 12 pages 10 figures

Published
2015
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33. Possible mechanisms of electronic phase separation in oxide interfaces

Author

Bovenzi, N., Finocchiaro, F., Scopigno, N., Bucheli, D., Caprara, S., Seibold, G., and Grilli, M.

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

LaAlO3/SrTiO3 ad LaTiO3/SrTiO3 interfaces are known to host a strongly inhomogeneous (nearly) two-dimensional electron gas (2DEG). In this work we present three unconventional electronic mechanisms of electronic phase separation (EPS) in a 2DEG as a possible source of inhomogeneity in oxide interfaces. Common to all three mechanisms is the dependence of some (interaction) potential on the 2DEG's density. We first consider a mechanism resulting from a sizable density-dependent Rashba spin-orbit coupling. Next, we point out that an EPS may also occur in the case of a density-dependent superconducting pairing interaction. Finally, we show that the confinement of the 2DEG to the interface by a density-dependent, self-consistent electrostatic potential can by itself cause an EPS., Comment: 4 pages and 4 figures, Proceedings of the International Conference "Superstripes 2014", 25-31 July 2015, Erice, Italy

Published
2015
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35. Critical spin fluctuations and the origin of nematic order in Ba(Fe1−xCox)2As2

Author

Kretzschmar, F, Böhm, T, Karahasanović, U, Muschler, B, Baum, A, Jost, D, Schmalian, J, Caprara, S, Grilli, M, Di Castro, C, Analytis, JG, Chu, J-H, Fisher, IR, and Hackl, R

Subjects
cond-mat.str-el, Mathematical Sciences, Physical Sciences, Fluids & Plasmas
Abstract

Nematic fluctuations and order play a prominent role in material classes such as the cuprates, some ruthenates or the iron-based compounds and may be interrelated with superconductivity. In iron-based compounds signatures of nematicity have been observed in a variety of experiments. However, the fundamental question as to the relevance of the related spin, charge or orbital fluctuations remains open. Here, we use inelastic light (Raman) scattering and study Ba(Fe 1-x Co x ) 2 As 2 (0 ≤ x ≤ 0.085) for getting direct access to nematicity and the underlying critical fluctuations with finite characteristic wavelengths. We show that the response from fluctuations appears only in B 1g (x 2 - y 2) symmetry (1 Fe unit cell). The scattering amplitude increases towards the structural transition at T s but vanishes only below the magnetic ordering transition at T 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 favourite candidate for driving the series of transitions.

Published
2016

36. The Archimedes Experiment, results on the thermal modulation system.

Author

Mangano, Valentina, primary, Allocca, A., additional, Avino, S., additional, Balestrieri, S., additional, Calloni, E., additional, Caprara, S., additional, Carpinelli, M., additional, D’Onofrio, L., additional, D’Urso, D., additional, De Rosa, R., additional, Errico, L., additional, Gagliardi, G., additional, Grilli, M., additional, Marsella, M., additional, Naticchioni, L., additional, Pasqualetti, A., additional, Pepe, G. P., additional, Perciballi, M., additional, Pesenti, L., additional, Puppo, P., additional, Rapagnani, P., additional, Ricci, F., additional, Rosa, L., additional, Rovelli, C., additional, Rozza, D., additional, Ruggi, P., additional, Saini, N., additional, Sequino, V., additional, Sipala, V., additional, Stornaiuolo, D., additional, Tafuri, F., additional, Tagliacozzo, A., additional, Tosta e Melo, I., additional, and Trozzo, L., additional

Published
2023
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37. The Archimedes project: a feasibility study for weighing the vacuum energy

Author

Calloni, Enrico, Caprara, S, De Laurentis, Martina, Esposito, Giampiero, Grilli, M, Majorana, Ettore, Pepe, G P, Petrarca, S, Puppo, P, Ricci, F, Rosa, Luigi, Rovelli, Carlo, Ruggi, P, Saini, N L, Stornaiolo, Cosimo, and Tafuri, Francesco

Subjects
General Relativity and Quantum Cosmology, High Energy Physics - Theory
Abstract

Archimedes is a feasibility study to a future experiment to ascertain the interaction of vacuum fluctuations with gravity. The future experiment should measure the force that the Earth's gravitational field exerts on a Casimir cavity by using a balance as the small force detector. The Archimedes experiment analyses the important parameters in view of the final measurement and experimentally explores solutions to the most critical problems., Comment: 10 pages, 4 figures

Published
2014

38. Phase separation and long wave-length charge instabilities in spin-orbit coupled systems

Author

Seibold, G., Bucheli, D., Caprara, S., and Grilli, M.

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

We investigate a two-dimensional electron model with Rashba spin-orbit interaction where the coupling constant $g=g(n)$ depends on the electronic density. It is shown that this dependence may drive the system unstable towards a long-wave length charge density wave (CDW) where the associated second order instability occurs in close vicinity to global phase separation. For very low electron densities the CDW instability is nesting-induced and the modulation follows the Fermi momentum $k_F$. At higher density the instability criterion becomes independent of $k_F$ and the system may become unstable in a broad momentum range. Finally, upon filling the upper spin-orbit split band, finite momentum instabilities disappear in favor of phase separation alone. We discuss our results with regard to the inhomogeneous phases observed at the LaAlO$_3$/SrTiO$_3$ or LaTiO$_3$/SrTiO$_3$ interfaces., Comment: 6 pages, 6 figures

Published
2014
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39. Pseudo-gap in tunneling spectra as a signature of inhomogeneous superconductivity in oxide interfaces

Author

Bucheli, D., Caprara, S., and Grilli, M.

Subjects
Condensed Matter - Superconductivity
Abstract

We present a theory for the pseudo-gap state recently observed at the LaAlO3/SrTiO3 interface, based on superconducting islands embedded in a metallic background. Superconductivity within each island is BCS-like, and the local critical temperatures are randomly distributed, some of them necessarily exceeding the critical temperature for global percolation to the zero resistance state. Consequently, tunneling spectra display a suppression of the density of states and coherence peaks already well above the percolative transition. This model of inhomogeneous superconductivity accounts well for the experimental tunneling spectra. The temperature dependence of the spectra suggests that a sizable fraction of the metallic background becomes superconducting by proximity effect when the temperature is lowered., Comment: 5 pages with 4 figures and supplementary material with 7 pages with 6 figures

Published
2014
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44. Phase diagrams of voltage-gated oxide interfaces with strong Rashba coupling

Author

Bucheli, D., Grilli, M., Peronaci, F., Seibold, G., and Caprara, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We propose a model for the two-dimensional electron gas formed at the interface of oxide heterostructures that includes a Rashba spin-orbit coupling proportional to an electric field oriented perpendicularly to the interface. Taking into account the electron density dependence of this electric field confining the electron gas at the interface, we report the occurrence of a phase separation instability (signaled by a negative compressibility) for realistic values of the spin-orbit coupling and of the electronic band-structure parameters at zero temperature. We extend the analysis to finite temperatures and in the presence of an in-plane magnetic field, thereby obtaining two phase diagrams which exhibit a phase separation dome. By varying the gating potential the phase separation dome may shrink and vanish at zero temperature into a quantum critical point where the charge fluctuates dynamically. Similarly the phase separation may be spoiled by a planar magnetic field even at zero temperature leading to a line of quantum critical points., Comment: 17 pages, 17 figures

Published
2013
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45. Multi-band superconductivity and nanoscale inhomogeneity at oxide interfaces

Author

Caprara, S., Biscaras, J., Bergeal, N., Bucheli, D., Hurand, S., Feuillet-Palma, C., Rastogi, A., Budhani, R. C., Lesueur, J., and Grilli, M.

Subjects
Condensed Matter - Superconductivity
Abstract

The two-dimensional electron gas at the LaTiO3/SrTiO3 or LaAlO3/SrTiO3 oxide interfaces becomes superconducting when the carrier density is tuned by gating. The measured resistance and superfluid density reveal an inhomogeneous superconductivity resulting from percolation of filamentary structures of superconducting "puddles" with randomly distributed critical temperatures, embedded in a non-superconducting matrix. Following the evidence that superconductivity is related to the appearance of high-mobility carriers, we model intra-puddle superconductivity by a multi-band system within a weak coupling BCS scheme. The microscopic parameters, extracted by fitting the transport data with a percolative model, yield a consistent description of the dependence of the average intra-puddle critical temperature and superfluid density on the carrier density., Comment: 7 pages with 3 figures + supplemental material (4 pages and 5 figures)

Published
2013
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47. Multiple Quantum Phase Transitions at the superconducting LaTiO3/SrTiO3 interface

Author

Biscaras, J., Bergeal, N., Hurand, S., Feuillet-Palma, C., Rastogi, A., Budhani, R. C., Grilli, M., Caprara, S., and Lesueur, J.

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

We study the magnetic field driven Quantum Phase Transition (QPT) in electrostatically gated superconducting LaTiO3/SrTiO3 interfaces. Through finite size scaling analysis, we show that it belongs to the (2+1)D XY model universality class. The system can be described as a disordered array of superconducting islands coupled by a two dimensional electron gas (2DEG). Depending on the 2DEG conductance tuned by the gate voltage, the QPT is single (corresponding to the long range phase coherence in the whole array) or double (one related to local phase coherence, the other one to the array). By retrieving the coherence length critical exponent \nu, we show that the QPT can be "clean" or "dirty" according to the Harris criteria, depending on whether the phase coherence length is smaller or larger than the island size. The overall behaviour is well described by a theoretical approach of Spivak et al., in the framework of the fermionic scenario of 2D superconducting QPT.

Published
2012

48. Kinks and waterfalls as signatures of competing order in angle-resolved photoemission spectra of La_{2-x}Sr_xCuO_4

Author

Mazza, G., Grilli, M., Di Castro, C., and Caprara, S.

Subjects
Condensed Matter - Superconductivity
Abstract

We show that the so-called kinks and waterfalls observed in angle-resolved photoemission spectra of La2-xSrxCuO4, a prototypical high-Tc superconducting cuprate, result from the coupling of quasiparticles with two distinct nearly critical collective modes with finite characteristic wave vectors, typical of charge and spin fluctuations near a stripe instability. Both phonon-like charge and spin collective modes are needed to account for the kinked quasiparticle dispersions. This clarifies the long-standing question whether kinks are due to phonons or spin waves and the nature of the bosonic mediators of the electron-electron effective interaction in La2-xSrxCuO4., Comment: 5 pages, 4 figures

Published
2012
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49. Metal-superconductor transition in two-dimensional electron systems with fractal-like mesoscopic disorder

Author

Bucheli, D., Caprara, S., Castellani, C., and Grilli, M.

Subjects
Condensed Matter - Superconductivity
Abstract

Motivated by recent experimental data on thin film superconductors and oxide interfaces we propose a random-resistor network apt to describe the occurrence of a metal-superconductor transition in a two-dimensional electron system with disorder on the mesoscopic scale. We explore the interplay between the statistical distribution of local critical temperatures and the occurrence of a lower-dimensional (e.g., fractal-like) structure of a superconducting cluster embedded in the two-dimensional network. The thermal evolution of the resistivity is determined by an exact calculation and, for comparison, a mean-field approach called effective medium theory (EMT). Our calculations reveal the relevance of the distribution of critical temperatures for clusters with low connectivity. In addition, we show that the presence of spatial correlations requires a modification of standard EMT to give qualitative agreement with the exact results., Comment: 9 pages, 7 figures

Published
2012

50. Hidden Ferronematic Order in Underdoped Cuprates

Author

Seibold, G., Capati, M., Di Castro, C., Grilli, M., and Lorenzana, J.

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

We study a model for low doped cuprates where holes aggregate into oriented stripe segments which have a vortex and an antivortex fixed to the extremes. We argue that due to the interaction between segments a state with macroscopic polarization is stabilized, which we call a ferronematic. This state can be characterized as a charge nematic which, due to the net polarization, breaks inversion symmetry and also exhibits an incommensurate spin modulation. Our calculation can reproduce the doping dependent spin structure factor of lanthanum cuprates in excellent agreement with experiment and allows to rationalize experiments in which the incommensurability has an order parameter-like temperature dependence., Comment: 5 pages, 4 figures

Published
2012
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