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1. Purely two-dimensional vortex matter in infinite-layer nickelates

Author

Sanchez-Manzano, D., Humbert, V., Gutiérrez-Llorente, A., Zhang, D., Santamaria, J., Bibes, M., Iglesias, L., and Villegas, Javier E.

Subjects
Condensed Matter - Superconductivity
Abstract

Characterizing the dimensionality of the superconducting state in the infinite-layer (IL) nickelates is crucial to understand its nature. Most studies have addressed the problem by studying the anisotropy of the upper critical fields. Yet, the dominance of Pauli-paramagnetism effects over orbital ones makes it challenging to interpret the experiments in terms of dimensionality. Here we address the question from a different perspective, by investigating the vortex phase diagram in the mixed-state. We demonstrate that superconducting Pr0.8Sr0.2NiO2 thin films present a vortex liquid-to-glass transition of a purely two-dimensional nature. The obtained results suggest that bidimensionality is an intrinsic property, and that superconductivity resides in fully-decoupled NiO2 planes. In this scenario, the coherence length along the c-axis must be shorter than the distance between those planes, while Josephson and magnetostatic coupling between them must be negligible. We believe that these conclusions are relevant for theories on the origin of superconductivity in the IL-nickelates.

Published
2024

3. Size-dependence and high temperature stability of radial vortex magnetic textures imprinted by superconductor stray fields

Author

Sanchez-Manzano, D., Orfila, G., Sander, A., Marcano, L., Gallego, F., Mawass, M. A., Grilli, F., Arora, A., Peralta, A., Cuellar, F. A., Fernandez-Roldan, J. A., Reyren, N., Kronast, F., Leon, C., Rivera-Calzada, A., Villegas, J. E., Santamaria, J., and Valencia, S.

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

Swirling spin textures, including topologically non-trivial states, such as skyrmions, chiral domain walls, and magnetic vortices, have garnered significant attention within the scientific community due to their appeal from both fundamental and applied points of view. However, their creation, controlled manipulation, and stability are typically constrained to certain systems with specific crystallographic symmetries, bulk, or interface interactions, and/or a precise stacking sequence of materials. Here, we make use of the stray field of YBa2Cu3O7-{\delta} superconducting microstructures in ferromagnet/superconductor hybrids to imprint magnetic radial vortices in permalloy at temperatures below the superconducting transition temperature (TC), a method easily extended to other ferromagnets with in-plane magnetic anisotropy. We examine the size dependence and temperature stability of the imprinted magnetic configurations. We show that above TC, magnetic domains retain memory of the imprinted spin texture. Micromagnetic modelling coupled with a SC field model reveals that the stabilization mechanism leading to this memory effect is mediated by microstructural defects. Superconducting control of swirling spin textures below and above the superconducting transition temperature holds promising prospects for shaping spintronics based on magnetic textures.

Published
2023

4. Disentangling photodoping, photoconductivity, and photosuperconductivity in the cuprates

Author

Hage, R. El, Sánchez-Manzano, D., Humbert, V., Carreira, S. J., Rouco, V., Sander, A, Cuellar, F., Seurre, K., Lagarrigue, A., Briatico, J., Trastoy, J., Santamaría, J., and Villegas, Javier E.

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

The normal-state conductivity and superconducting critical temperature of oxygen-deficient YBa2Cu3O7-x can be persistently enhanced by illumination. Strongly debated for years, the origin of those effects -- termed persistent photoconductivity (PPC) and photosuperconductivity (PPS) -- has remained an unsolved critical problem, whose comprehension may provide key insights to harness the origin of high-temperature superconductivity itself. Here we make essential steps toward understanding PPS. While the models proposed so far assume that it is caused by a carrier-density increase (photodoping) observed concomitantly, our experiments contradict such conventional belief: we demonstrate that it is instead linked to a photo-induced decrease of the electronic scattering rate. Furthermore, we find that the latter effect and photodoping are completely disconnected and originate from different microscopic mechanisms since they present different wavelength and oxygen-content dependencies as well as strikingly different relaxation dynamics. Besides helping disentangle photodoping, PPC, and PPS, our results provide new evidence for the intimate relation between critical temperature and scattering rate, a key ingredient in modern theories on high-temperature superconductivity.

Published
2023

5. Caracterización eléctrica de fronteras de grano en conductores iónicos mediante medidas de espectroscopia de impedancias en un bicristal

Author

Frechero, M. A., Rocci, M., Schmidt, Rainer, Díaz-Guillén, M. R., Durá, O. J., Rivera-Calzada, A., Santamaria, J., and León, C.

Subjects
Conductivity, Grain boundaries, Ionic conductors, Conductividad, Bordes de grano, Conductores iónicos, Clay industries. Ceramics. Glass, TP785-869
Abstract

Here we show impedance spectroscopy measurements on a bicrystal of the ionically conducting yttria stabilized zirconia (YSZ). By using micrometer sized electrodes it is possible to measure ionic transport perpendicular to a single grain boundary, and characterize its electrical properties. We are thus able to obtain the microscopic parameters that determine the charge distribution at the grain boundary and the ionic transport through it, as the potential energy barrier Δɸ = 0.35±0.01 V at 275 ºC, and the space charge layer thickness λ = 5±1 Å. These values are significantly different from those previously obtained in polycrystalline ceramic samples of the same material, and show much better agreement with the values predicted by the Mott-Schottky model for the charge distribution and ionic transport through the grain boundary.En este trabajo se presentan resultados de medidas de espectroscopia de impedancias realizadas en un bicristal del conductor iónico zirconia estabilizada con itria (YSZ). Utilizando electrodos de tamaño micrométrico se ha podido medir el transporte iónico a través, perpendicularmente, de una única frontera de grano, caracterizando eléctricamente las propiedades de dicha frontera. De este modo se han obtenido los parámetros microscópicos que determinan la distribución de carga en la frontera y por lo tanto el transporte iónico a través de ella, como son la barrera de potencial en la frontera Δɸ= 0.35±0.01 V a 275 ºC, y el espesor de la zona de carga espacial l* λ = 5±1 Å. Estos valores son significativamente diferentes a los obtenidos anteriormente en muestras cerámicas policristalinas del mismo material, y muestran mejor acuerdo con los valores que predice el modelo de Mott-Schottky para la distribución de carga y el transporte iónico a través de la frontera de grano.

Published
2012
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6. Accurate LiDAR-Based Semantic Classification for Powerline Inspection

Author

Luna-Santamaria, J., Rodríguez, I. G., Dios, J. R. Martínez-de, Ollero, A., Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, van Leeuwen, Jan, Series Editor, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Kobsa, Alfred, Series Editor, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Nierstrasz, Oscar, Series Editor, Pandu Rangan, C., Editorial Board Member, Sudan, Madhu, Series Editor, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Vardi, Moshe Y, Series Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Ferrández Vicente, José Manuel, editor, Val Calvo, Mikel, editor, and Adeli, Hojjat, editor

Published
2024
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9. MedNet: Pre-trained Convolutional Neural Network Model for the Medical Imaging Tasks

Author

Alzubaidi, Laith, Santamaría, J., Manoufali, Mohamed, Mohammed, Beadaa, Fadhel, Mohammed A., Zhang, Jinglan, Al-Timemy, Ali H., Al-Shamma, Omran, and Duan, Ye

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Deep Learning (DL) requires a large amount of training data to provide quality outcomes. However, the field of medical imaging suffers from the lack of sufficient data for properly training DL models because medical images require manual labelling carried out by clinical experts thus the process is time-consuming, expensive, and error-prone. Recently, transfer learning (TL) was introduced to reduce the need for the annotation procedure by means of transferring the knowledge performed by a previous task and then fine-tuning the result using a relatively small dataset. Nowadays, multiple classification methods from medical imaging make use of TL from general-purpose pre-trained models, e.g., ImageNet, which has been proven to be ineffective due to the mismatch between the features learned from natural images (ImageNet) and those more specific from medical images especially medical gray images such as X-rays. ImageNet does not have grayscale images such as MRI, CT, and X-ray. In this paper, we propose a novel DL model to be used for addressing classification tasks of medical imaging, called MedNet. To do so, we aim to issue two versions of MedNet. The first one is Gray-MedNet which will be trained on 3M publicly available gray-scale medical images including MRI, CT, X-ray, ultrasound, and PET. The second version is Color-MedNet which will be trained on 3M publicly available color medical images including histopathology, taken images, and many others. To validate the effectiveness MedNet, both versions will be fine-tuned to train on the target tasks of a more reduced set of medical images. MedNet performs as the pre-trained model to tackle any real-world application from medical imaging and achieve the level of generalization needed for dealing with medical imaging tasks, e.g. classification. MedNet would serve the research community as a baseline for future research., Comment: 6 Pages

Published
2021

10. Universality and the thermoelectric transport properties of a double quantum dot system: Seeking for conditions that improve the thermoelectric efficiency

Author

Ronald Santiago Cortes-Santamaria , J. A. Landazabal-Rodríguez, Jereson Silva-Valencia , Edwin Ramos , M. S. Figueira, Roberto Franco Peñaloza.

Subjects
Physics, QC1-999
Abstract

Employing universal relations for the Onsager coefficients in the linear regime at the symmetric point of the single impurity Anderson model, we calculate the conditions under which the quantum scattering phase shift should satisfy to produce the asymptotic Carnot’s limit for the thermoelectric efficiency. We show that a single quantum dot connected by metallic leads at the Kondo regime cannot achieve the best thermoelectric efficiency. We study a serial double quantum dot system, with the quantum dots immersed in ballistic conduction channels. Each QD exhibits a strong but finite local electronic correlation U. We show that maintaining one dot in the electron-hole symmetric point and allowing charge fluctuations in the other QD makes it possible to drive the system to the maximum thermoelectric efficiency. We also show that the bound states in the continuum (BICs) and quasi-BICs associated with the quantum scattering interference process drive the DQD to the maximum thermoelectric efficiency. We identify two types of quasi-BICs that occur at low and high temperatures: The first is associated with single Fano resonances, and the last is with several Fano processes. We also discussed possible temperature values and conditions that could be linked with the experimental realization of the results.

Published
2024
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11. A Fuchsian viewpoint on the weak null condition

Author

Oliynyk, Todd A. and Olvera-Santamaría, J. Arturo

Subjects
Mathematics - Analysis of PDEs
Abstract

We analyze systems of semilinear wave equations in $3+1$ dimensions whose associated asymptotic equation admit bounded solutions for suitably small choices of initial data. Under this special case of the weak null condition, which we refer to as the \textit{bounded weak null condition}, we prove the existence of solutions to these systems of wave equations on neighborhoods of spatial infinity under a small initial data assumption. Existence is established using the Fuchsian method. This method involves transforming the wave equations into a Fuchsian equation defined on a bounded spacetime region. The existence of solutions to the Fuchsian equation then follows from an application of the existence theory developed in \cite{BOOS:2020}. This, in turn, yields, by construction, solutions to the original system of wave equations on a neighborhood of spatial infinity., Comment: Typos corrected; agrees with published version

Published
2020

12. Spin pumping in d-wave superconductor/ferromagnet hybrids

Author

Carreira, S. J., Sanchez-Manzano, D., Yoo, M. -W., Rouco, V., Sander, A., Santamaría, J., Anane, A., and Villegas, J. E.

Subjects
Condensed Matter - Materials Science
Abstract

Spin-pumping across ferromagnet/superconductor (F/S) interfaces has attracted much attention lately. Yet the focus has been mainly on s-wave superconductors-based systems whereas (high-temperature) d-wave superconductors such as YBa2Cu3O7-d (YBCO) have received scarce attention despite their fundamental and technological interest. Here we use wideband ferromagnetic resonance to study spin-pumping effects in bilayers that combine a soft metallic Ni80Fe20 (Py) ferromagnet and YBCO. We evaluate the spin conductance in YBCO by analyzing the magnetization dynamics in Py. We find that the Gilbert damping exhibits a drastic drop as the heterostructures are cooled across the normal-superconducting transition and then, depending on the S/F interface morphology, either stays constant or shows a strong upturn. This unique behavior is explained considering quasiparticle density of states at the YBCO surface, and is a direct consequence of zero-gap nodes for particular directions in the momentum space. Besides showing the fingerprint of d-wave superconductivity in spin-pumping, our results demonstrate the potential of high-temperature superconductors for fine tuning of the magnetization dynamics in ferromagnets using k-space degrees of freedom of d-wave/F interfaces., Comment: 20 pages, 6 figures

Published
2020
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13. Tailored flux pinning in superconductor/ferromagnet multilayers with engineered magnetic domain morphology from stripes to skyrmions

Author

Palermo, X., Reyren, N., Mesoraca, S., Samokhvalov, A. V., Collin, S., Godel, F., Sander, A., Bouzehouane, K., Santamaría, J., Cros, V., Buzdin, A. I., and Villegas, Javier E.

Subjects
Condensed Matter - Superconductivity
Abstract

Superconductor/Ferromagnet (S/F) hybrid systems show interesting magneto-transport behaviors that result from the transfer of properties between both constituents. For instance, magnetic memory can be transferred from the F into the S through the pinning of superconducting vortices by the ferromagnetic textures. The ability to tailor this type of induced behavior is important to broaden its range of applications. Here we show that engineering the F magnetization reversal allows tuning the strength of the vortex pinning (and memory) effects, as well as the field range in which they appear. This is done by using magnetic multilayers in which Co thin films are combined with different heavy metals (Ru, Ir, Pt). By choosing the materials, thicknesses, and stacking order of the layers, we can design the characteristic domain size and morphology, from out-of-plane magnetized stripe domains to much smaller magnetic skyrmions. These changes strongly affect the magneto-transport properties. The underlying mechanisms are identified by comparing the experimental results to a magnetic pinning model.

Published
2020
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15. Factors limiting ferroelectric field-effect doping in complex-oxide heterostructures

Author

Bégon-Lours, L., Rouco, V., Qiao, Qiao, Sander, A., Roldán, M. A., Bernard, R., Trastoy, J., Crassous, A., Jacquet, E., Bouzehouane, K., Bibes, M., Santamaría, J., Barthélémy, A., Varela, M., and Villegas, Javier E.

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

Ferroelectric field-effect doping has emerged as a powerful approach to manipulate the ground state of correlated oxides, opening the door to a new class of field-effect devices. However, this potential is not fully exploited so far, since the size of the field-effect doping is generally much smaller than expected. Here we study the limiting factors through magneto-transport, scanning transmission electron and piezo-response force microscopy in ferroelectric/superconductor (YBa2Cu3O7-{\delta} /BiFeO3) heterostructures, a model system showing very strong field-effects. Still, we find that they are limited in the first place by an incomplete ferroelectric switching. This can be explained by the existence of a preferential polarization direction set by the atomic terminations at the interface. More importantly, we also find that the field-effect carrier doping is accompanied by a strong modulation of the carrier mobility. Besides making quantification of field-effects via Hall measurements not straightforward, this finding suggests that ferroelectric poling produces structural changes (e.g. charged defects or structural distortions) in the correlated oxide channel. Those findings have important consequences for the understanding of ferroelectric field-effects and for the strategies to further enhance them.

Published
2019
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16. The Fuchsian approach to global existence for hyperbolic equations

Author

Beyer, Florian, Oliynyk, Todd A., and Olvera-Santamaría, J. Arturo

Subjects
Mathematics - Analysis of PDEs, General Relativity and Quantum Cosmology
Abstract

We analyze the Cauchy problem for symmetric hyperbolic equations with a time singularity of Fuchsian type and establish a global existence theory along with decay estimates for evolutions towards the singular time under a small initial data assumption. We then apply this theory to semilinear wave equations near spatial infinity on Minkowski and Schwarzschild spacetimes, and to the relativistic Euler equations with Gowdy symmetry on Kasner spacetimes., Comment: Introduction expanded, references added, and typos fixed. Accepted for publication in Communications in Partial Differential Equations

Published
2019

19. Tuning up or down the critical thickness in LaAlO3/SrTiO3 through in situ deposition of metal overlayers

Author

Vaz, D. C., Lesne, E., Naganuma, H., Jacquet, E., Santamaria, J., Barthelemy, A., and Bibes, M.

Subjects
Condensed Matter - Materials Science
Abstract

The quasi 2D electron system (q2DES) that forms at the interface between LaAlO3 and SrTiO3 has attracted much attention from the oxide electronics community. One of its hallmark features is the existence of a critical LaAlO3 thickness of 4 unit-cells (uc) for interfacial conductivity to emerge. In this paper, the chemical, electronic, and transport properties of LaAlO3/SrTiO3 samples capped with different metals grown in a system combining pulsed laser deposition, sputtering, and in situ X-ray photoemission spectroscopy are investigated. The results show that for metals with low work function a q2DES forms at 1-2 uc of LaAlO3 and is accompanied by a partial oxidation of the metal, a phenomenon that affects the q2DES properties and triggers the formation of defects. In contrast, for noble metals, the critical thickness is increased above 4 uc. The results are discussed in terms of a hybrid mechanism that incorporates electrostatic and chemical effects., Comment: Work supported by ERC Consolidator grant MINT (Contract No. 615759)

Published
2017
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20. Hybridization-controlled charge transfer and induced magnetism at correlated oxide interfaces

Author

Grisolia, M. N., Varignon, J., Sanchez-Santolino, G., Arora, A., Valencia, S., Varela, M., Abrudan, R., Weschke, E., Schierle, E., Rault, J. E., Rueff, J. -P., Barthelemy, A., Santamaria, J., and Bibes, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

At interfaces between conventional materials, band bending and alignment are classically controlled by differences in electrochemical potential. Applying this concept to oxides in which interfaces can be polar and cations may adopt a mixed valence has led to the discovery of novel two-dimensional states between simple band insulators such as LaAlO3 and SrTiO3. However, many oxides have a more complex electronic structure, with charge, orbital and/or spin orders arising from correlations between transition metal and oxygen ions. Strong correlations thus offer a rich playground to engineer functional interfaces but their compatibility with the classical band alignment picture remains an open question. Here we show that beyond differences in electron affinities and polar effects, a key parameter determining charge transfer at correlated oxide interfaces is the energy required to alter the covalence of the metaloxygen bond. Using the perovskite nickelate (RNiO3) family as a template, we probe charge reconstruction at interfaces with gadolinium titanate GdTiO3. X-ray absorption spectroscopy shows that the charge transfer is thwarted by hybridization effects tuned by the rare-earth (R) size. Charge transfer results in an induced ferromagnetic-like state in the nickelate, exemplifying the potential of correlated interfaces to design novel phases. Further, our work clarifies strategies to engineer two-dimensional systems through the control of both doping and covalence., Comment: Work supported by ERC Consolidator grant MINT (Contract No. 615759)

Published
2017
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21. Evolution and metric signature change of maximally symmetric spaces under the Ricci flow

Author

Cartas-Fuentevilla, R., Herrera-Aguilar, A., and Olvera-Santamaría, J. A.

Subjects
General Relativity and Quantum Cosmology
Abstract

In this work we present solutions to the Ricci flow equations in arbitrary dimensions, particularizing for the $3d$ and $4d$ cases. We start by considering the $3d$ case and note that our solutions belong to the family of maximally symmetric spaces that can be extended to the $d\geq 4$ case following an analogue treatment. These solutions can be divided into two scenarios: maximally symmetric spaces with positive curvature i.e. de Sitter spaces, and maximally symmetric spaces with negative curvature i.e. Anti-de Sitter spaces. We show that between both scenarios there is a {\it critical point} where the curvature blows up along the flow. Also the solutions for $d\geq 4$ satisfy the flow equations with Riemannian or pseudo-Riemannian metrics due to the fact that the considered maximally symmetric spaces do not depend on time neither on the angular coordinates yielding equations that depend only on the radial coordinate and the Ricci flow parameter. Additionally we find an interesting effect of the flow consisting in a change of the signature of the metric when passing the singular point. Besides the signature change, the sign of the curvature also experiences a transition from positive to negative curvature, either with Riemannian or pseudo-Riemannian metrics throughout the singular point., Comment: 16 pages

Published
2017

22. A high-temperature superconducting weak-link defined by ferroelectric field-effect

Author

Begon-Lours, L., Rouco, V., Sander, A., Trastoy, J., Bernard, R., Jacquet, E., Bouzehouane, K., Fusil, S., Garcia, V., Barthelemy, A., Bibes, M., Santamaría, J., and Villegas, J. E.

Subjects
Condensed Matter - Superconductivity
Abstract

In all-oxide ferroelectric (FE) - superconductor (S) bilayers, due to the low carrier concentration of oxides compared to transition metals, the FE interfacial polarization charges induce an accumulation (or depletion) of charge carriers in the S. This leads either to an enhancement or a depression of its critical temperature depending on FE polarization direction.Here we exploit this effect at a local scale to define planar weak-links in high-temperature superconducting wires. This is realized in BiFeO3(FE)/YBa2Cu3O7(S)bilayers in which the remnant FE domain structure is written at will by locally applying voltage pulses with a conductive-tip atomic force microscope. In this fashion, the FE domain pattern defines a spatial modulation of superconductivity. This allows us to write a device whose electrical transport shows different temperature regimes and magnetic field matching effects that are characteristic of Josephson coupled weak-links. This illustrates the potential of the ferroelectric approach for the realization of high-temperature superconducting devices.

Published
2017
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23. Extremely long-range, high-temperature Josephson coupling across a half-metallic ferromagnet

Author

Sanchez-Manzano, D., Mesoraca, S., Cuellar, F. A., Cabero, M., Rouco, V., Orfila, G., Palermo, X., Balan, A., Marcano, L., Sander, A., Rocci, M., Garcia-Barriocanal, J., Gallego, F., Tornos, J., Rivera, A., Mompean, F., Garcia-Hernandez, M., Gonzalez-Calbet, J. M., Leon, C., Valencia, S., Feuillet-Palma, C., Bergeal, N., Buzdin, A. I., Lesueur, J., Villegas, Javier E., and Santamaria, J.

Published
2022
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26. Proximity driven commensurate pinning in YBa2Cu3O7 through all-oxide magnetic nanostructures

Author

Rocci, M., Azpeitia, J., Perez-Muñoz, J. Trastoy A., Cabero, M., Luccas, R. F., Munuera, C., Mompean, F. J., Garcia-Hernandez, M., Bouzehouane, K., Sefrioui, Z., Leon, C., Rivera-Calzada, A., Villegas, J. E., and Santamaria, J.

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

The design of artificial vortex pinning landscapes is a major goal towards large scale applications of cuprate superconductors. While disordered nanometric inclusions have shown to modify their vortex phase diagram and to produce enhancements of the critical current1,2, the effect of ordered oxide nanostructures remains essentially unexplored. This is due to the very small nanostructure size imposed by the short coherence length, and to the technological difficulties in the nanofabrication process. Yet, the novel phenomena occurring at oxide interfaces open a wide spectrum of technological opportunities to interplay with the superconductivity in cuprates. Here we show that the unusual long range suppression of the superconductivity occurring at the interface between manganites and cuprates affects vortex nucleation and provides a novel vortex pinning mechanism. In particular, we show evidence of commensurate pinning in YBCO films with ordered arrays of LCMO ferromagnetic nanodots. Vortex pinning results from the proximity induced reduction of the condensation energy at the vicinity of the magnetic nanodots, and yields an enhanced friction between the nanodot array and the moving vortex lattice in the liquid phase. This result shows that all-oxide ordered nanostructures constitute a powerful, new route for the artificial manipulation of vortex matter in cuprates.

Published
2015
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27. UV photoprocessing of CO2 ice: a complete quantification of photochemistry and photon-induced desorption processes

Author

Martín-Doménech, R., Manzano-Santamaría, J., Caro, G. M. Muñoz, Cruz-Díaz, G. A., Chen, Y. -J., Herrero, V. J., and Tanarro, I.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Ice mantles that formed on top of dust grains are photoprocessed by the secondary ultraviolet (UV) field in cold and dense molecular clouds. UV photons induce photochemistry and desorption of ice molecules. Experimental simulations dedicated to ice analogs under astrophysically relevant conditions are needed to understand these processes. We present UV-irradiation experiments of a pure CO2 ice analog. Calibration of the QMS allowed us to quantify the photodesorption of molecules to the gas phase. This information was added to the data provided by the FTIR on the solid phase to obtain a complete quantitative study of the UV photoprocessing of an ice analog. Experimental simulations were performed in an ultra-high vacuum chamber. Ice samples were deposited onto an infrared transparent window at 8K and were subsequently irradiated with a microwave-discharged hydrogen flow lamp. After irradiation, ice samples were warmed up until complete sublimation was attained. Photolysis of CO2 molecules initiates a network of photon-induced chemical reactions leading to the formation of CO, CO3 ,O2 , and O3 . During irradiation, photon-induced desorption of CO and, to a lesser extent, O2 and CO2 took place through a process called indirect desorption induced by electronic transitions (DIET), with maximum photodesorption yields (Ypd) of 1.2 x 10-2 molecules/incident photon , 9.3 x 10-4 molecules/incident photon , and 1.1 x 10-4 molecules/incident photon , respectively. Calibration of mass spectrometers allows a direct quantification of photodesorption yields instead of the indirect values that were obtained from infrared spectra in most previous works. Supplementary information provided by infrared spectroscopy leads to a complete quantification, and therefore a better understanding, of the processes taking place in UV-irradiated ice mantles.

Published
2015

30. Sex affects REM sleep behavior disorder identification: a comparative analysis of clinical data, screening questionnaires and REM sleep without atonia in women and men

Author

Ibrahim, A., primary, Serradell, M., additional, Cesari, M., additional, Gaig, C., additional, Holzknecht, E., additional, Marrero, P., additional, Brandauer, E., additional, Pérez-Carbonell, L., additional, Bergmann, M., additional, Fernández-Arcos, A., additional, Matos, N., additional, Santamaria, J., additional, Högl, B., additional, Iranzo, A., additional, and Stefani, A., additional

Published
2024
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32. High On/Off Ratio Memristive Switching of Manganite/Cuprate Bilayer by Interfacial Magnetoelectricity

Author

Shen, X, Pennycook, TJ, Hernandez-Martin, D, Pérez, A, Puzyrev, YS, Liu, Y, te Velthuis, SGE, Freeland, JW, Shafer, P, Zhu, C, Varela, M, Leon, C, Sefrioui, Z, Santamaria, J, and Pantelides, ST

Subjects
Physical Chemistry, Materials Engineering, Physical Chemistry (incl. Structural)
Abstract

Memristive switching serves as the basis for a new generation of electronic devices. Conventional memristors are two-terminal devices in which the current is turned on and off by redistributing point defects, e.g., vacancies. Memristors based on alternative mechanisms have been explored, but achieving both high on/off ratio and low switching energy, as needed in applications, remains a challenge. This study reports memristive switching in La0.7Ca0.3MnO3/PrBa2Cu3O7 bilayers with an on/off ratio greater than 103 and results of density functional theory calculations in terms of which it is concluded that the phenomenon is likely the result of a new type of interfacial magnetoelectricity. More specifically, this study shows that an external electric field induces subtle displacements of the interfacial Mn ions, which switches on/off an interfacial magnetic “dead layer”, resulting in memristive behavior for spin-polarized electron transport across the bilayer. The interfacial nature of the switching entails low energy cost, about of a tenth of atto Joule for writing/erasing a “bit”. The results indicate new opportunities for manganite/cuprate systems and other transition metal oxide junctions in memristive applications.

Published
2016

33. EE458 Benefits, Costs and Cost Effectiveness of a Chronic Heart Failure Disease Management Program for Austria – a Decision-Analytic Modeling Study

Author

Jahn, B., primary, Puntscher, S., additional, Santamaria, J., additional, Mühlberger, N., additional, Sroczynski, G., additional, Rochau, U., additional, Siebert, S., additional, Arvandi, M., additional, Moertl, D., additional, Reitter-Pfoertner, S., additional, Kiss, N., additional, Hochwallner, C., additional, Walter, E., additional, Thokala, P., additional, Goehler, A., additional, and Siebert, U., additional

Published
2023
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34. EE306 Utilizing Real World Evidence for Cost-Effectiveness Analysis of the Disease Management Program for Chronic Heart Failure Herzmobil Tirol

Author

Jahn, B., primary, Egelseer-Bruendl, T., additional, Arvandi, M., additional, Puntscher, S., additional, Santamaria, J., additional, Pfeifer, B., additional, Rissbacher, C., additional, Modre-Osprian, R., additional, Neururer, S., additional, Kreiner, K., additional, Siebert, U., additional, and Poelzl, G., additional

Published
2023
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35. Large intrinsic anomalous Hall effect in SrIrO3 induced by magnetic proximity effect

Author

Yoo, Myoung-Woo, Tornos, J., Sander, A., Lin, Ling-Fang, Mohanta, Narayan, Peralta, A., Sanchez-Manzano, D., Gallego, F., Haskel, D., Freeland, J. W., Keavney, D. J., Choi, Y., Strempfer, J., Wang, X., Cabero, M., Vasili, Hari Babu, Valvidares, Manuel, Sanchez-Santolino, G., Gonzalez-Calbet, J. M., Rivera, A., Leon, C., Rosenkranz, S., Bibes, M., Barthelemy, A., Anane, A., Dagotto, Elbio, Okamoto, S., te Velthuis, S. G. E., Santamaria, J., and Villegas, Javier E.

Published
2021
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38. Emergent Spin-Filter at the interface between Ferromagnetic and Insulating Layered Oxides

Author

Liu, Yaohua, Cuellar, F. A., Sefrioui, Z., Freeland, J. W., Fitzsimmons, M. R., Leon, C., Santamaria, J., and Velthuis, S. G. E. te

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

We report a strong effect of interface-induced magnetization on the transport properties of magnetic tunnel junctions consisting of ferromagnetic manganite La$_{0.7}$Ca$_{0.3}$MnO$_{3}$ and insulating cuprate PrBa$_{2}$Cu$_{3}$O$_{7}$. Contrary to the typically observed steady increase of the tunnel magnetoresistance with decreasing temperature, this system exhibits a sudden anomalous decrease at low temperatures. Interestingly, this anomalous behavior can be attributed to the competition between the positive spin polarization of the manganite contacts and the negative spin-filter effect from the interface-induced Cu magnetization., Comment: 5 pages, 4 figures, with supplemental materials (2 figures). Physical Review Letters, in press

Published
2013
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41. Measurement of Magnetic Exchange in Ferromagnet-Superconductor La2/3Ca1/3MnO3/YBa2Cu3O7 Bilayers

Author

Giblin, S. R., Taylor, J. W., Duffy, J. A., Butchers, M. W., Utfeld, C., Dugdale, S. B., Nakamura, T., Visani, C., and Santamaria, J.

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

The existence of coherent magnetic correlations in the normal phase of cuprate high-temperature superconductors has proven difficult to measure directly. Here we report on a study of ferromagnetic-superconductor bilayers of La2/3Ca1/3MnO3/YBa2Cu3O7 (LCMO/YBCO) with varying YBCO layer thicknesses. Using x-ray magnetic circular dichroism, we demonstrate that the ferromagnetic layer induces a Cu magnetic moment in the adjacent high-temperature superconductor. For thin samples, this moment exists at all temperatures below the Curie temperature of the LCMO layer. However, for a YBCO layer thicker than 12 unit cells, the Cu moment is suppressed for temperatures above the superconducting transition, suggesting this to be a direct measurement of magnetic coherence in the normal state of a superconducting oxide., Comment: 5 pages

Published
2012
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42. Effect of Interface Induced Exchange Fields on Cuprate-Manganite Spin Switches

Author

Liu, Yaohua, Visani, C., Nemes, N. M., Fitzsimmons, M. R., Zhu, L. Y., Tornos, J., Zhernenkov, M., Hoffmann, A., Leon, C., Santamaria, J., and Velthuis, S. G. E. te

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

We examine the anomalous inverse spin switch behavior in La$_{0.7}$Ca$_{0.3}$MnO$_3$ (LCMO)/YBa$_2$Cu$_3$O$_{7-\delta}$ (YBCO)/LCMO trilayers by combined transport studies and polarized neutron reflectometry. Measuring magnetization profiles and magnetoresistance in an in-plane rotating magnetic field, we prove that, contrary to many accepted theoretical scenarios, the relative orientation between the two LCMO's magnetizations is not sufficient to determine the magnetoresistance. Rather the field dependence of magnetoresistance is explained by the interplay between the applied magnetic field and the (exponential tail of the) induced exchange field in YBCO, the latter originating from the electronic reconstruction at the LCMO/YBCO interfaces., Comment: Total 7 pages,with Supplemental Material. Accepted for publication in Physical Review Letters

Published
2012
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43. Upper limit to magnetism in LaAlO3/SrTiO3 heterostructures

Author

Fitzsimmons, M. R., Hengartner, N., Singh, S., Zhernenkov, M., Bruno, F. Y., Santamaria, J., Brinkman, A., Huijben, M., Molegraaf, H., de la Venta, J., and Schuller, Ivan K.

Subjects
Condensed Matter - Materials Science
Abstract

Using polarized neutron reflectometry (PNR) we measured the neutron spin dependent reflectivity from four LaAlO3/SrTiO3 superlattices. This experiment implies that the upper limit for the magnetization induced by an 11 T magnetic field at 1.7 K is 2 emu/cm3. SQUID magnetometry of the superlattices sporadically finds an enhanced moment, possibly due to experimental artifacts. These observations set important restrictions on theories which imply a strongly enhanced magnetism at the interface between LaAlO3 and SrTiO3.

Published
2011
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44. Stray field and superconducting surface spin valve effect in La$_{0.7}$Ca$_{0.3}$MnO$_3$/YBa$_2$Cu$_3$O$_{7-\delta}$ bilayers

Author

Hu, T., Xiao, H., Visani, C., Santamaria, J., and Almasan, C. C.

Subjects
Condensed Matter - Superconductivity
Abstract

Electronic transport and magnetization measurements were performed on La$_{0.7}$Ca$_{0.3}$MnO$_3$/YBa$_2$Cu$_3$O$_{7-\delta}$ (LCMO/YBCO) bilayers below the superconducting transition temperature in order to study the interaction between magnetism and superconductivity. This study shows that a substantial number of weakly pinned vortices are induced in the YBCO layer by the large out-of-plane stray field in the domain walls. Their motion gives rise to large dissipation peaks at the coercive field. The angular dependent magnetoresistance (MR) data reveal the interaction between the stripe domain structure present in the LCMO layer and the vortices and anti-vortices induced in the YBCO layer by the out-of-plane stray field. In addition, this study shows that a superconducting surface spin valve effect is present in these bilayers as a result of the relative orientation between the magnetization at the LCMO/YBCO interface and the magnetization in the interior of the LCMO layer that can be tuned by the rotation of a small $H$. This latter finding will facilitate the development of superconductive magnetoresistive memory devices. These low-magnetic field MR data, furthermore, suggest that triplet superconductivity is induced in the LCMO layer, which is consistent with recent reports of triplet superconductivity in LCMO/YBCO/LCMO trilayers and LCMO/YBCO bilayers., Comment: 14 pages, 3 figures

Published
2011
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46. Long-range superconducting proximity effect in YBa2Cu3O7/La0.7Ca0.3MnO3 weak-link arrays.

Author

Sanchez-Manzano, D., Mesoraca, S., Rodriguez-Corvillo, S., Lagarrigue, A., Gallego, F., Cuellar, F. A., Sander, A., Rivera-Calzada, A., Valencia, S., Villegas, J. E., Leon, C., and Santamaria, J.

Subjects
QUANTUM interference, CRITICAL temperature, SUPERCONDUCTIVITY, SUPERCONDUCTORS, ELECTRONIC equipment
Abstract

The interplay between ferromagnetism and superconductivity has attracted substantial interest due to its potential for exotic quantum phenomena and advanced electronic devices. Although ferromagnetism and superconductivity are antagonistic phenomena, ferromagnets (F) can host spin-triplet superconductivity induced via proximity with superconductors (S). To date, most of the experimental effort has been focused on single S/F/S junctions. Here, we have found the fingerprints of long-range superconducting proximity effect in micrometric weak-link arrays, formed by embedding YBa2Cu3O7 superconducting islands in a half-metallic ferromagnet La0.7Ca0.3MnO3 film. These arrays show magnetoresistance oscillations that appear at temperatures below the critical temperature of YBa2Cu3O7 for currents below a threshold, indicating their superconducting origin. This realization paves the way for device architectures displaying macroscopic quantum interference effects, which are of interest for field sensing applications, among others. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Quistes de duplicación gástrica

Author

Cuéllar, E. Rodríguez, primary, Barros, V. Nieto, additional, Santamaria, J. Salamanca, additional, García-Gallardo, D. Hernández, additional, Rodríguez, P. Gómez, additional, Aguilar, M. Ortiz, additional, and Herrero, E. Ferrero, additional

Published
2020
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50. Direct measurement of charge transfer phenomena at ferromagnetic/superconducting oxide interfaces

Author

Varela, M., Lupini, A. R., Pena, V., Sefrioui, Z., Arslan, I., Browning, N. D., Santamaria, J., and Pennycook, S. J.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

YBa2Cu3O7-x/La0.67Ca0.33MnO3 ferromagnetic/superconducting interfaces are analyzed by scanning transmission electron microscopy and electron energy loss spectroscopy with monolayer resolution. We demonstrate that extensive charge transfer occurs between the manganite and the superconductor, in a manner similar to modulation-doped semiconductors, which explains the reduced critical temperatures of heterostructures. This behavior is not seen with insulating PrBa2Cu3O7 layers. Furthermore, we confirm directly that holes in the YBa2Cu3O7-x are located on the CuO2 planes., Comment: 16 pages, 4 figures

Published
2005

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