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1. Static impurity in a mesoscopic system of SU($N$) fermionic matter-waves

Author

Polo, Juan, Chetcuti, Wayne J., Minguzzi, Anna, Osterloh, Andreas, and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

We investigate the effects of a static impurity, modeled by a localized barrier, in a one-dimensional mesoscopic system comprised of strongly correlated repulsive SU($N$)-symmetric fermions. For a mesoscopic sized ring under the effect of an artificial gauge field, we analyze the particle density and the current flowing through the impurity at varying interaction strength, barrier height and number of components. We find a non-monotonic behaviour of the persistent current, due to the competition between the screening of the impurity, quantum fluctuations, and the phenomenon of fractionalization, a signature trait of SU($N$) fermionic matter-waves in mesoscopic ring potentials. This is also highlighted in the particle density at the impurity site. We show that the impurity opens a gap in the energy spectrum selectively, constrained by the total effective spin and interaction. Our findings hold significance for the fundamental understanding of the localized impurity problem and its potential applications for sensing and interferometry in quantum technology., Comment: 5 revtex pages, 3 figures

Published
2024

2. Extractable energy from quantum superposition of current states

Author

Perciavalle, Francesco, Rossini, Davide, Polo, Juan, and Amico, Luigi

Subjects
Quantum Physics, Condensed Matter - Quantum Gases
Abstract

We explore the energy content of superpositions of current states. Specifically, we focus on the maximum energy that can be extracted from them through local unitary transformations. The figure of merit we employ is the local ergotropy. We perform a complete analysis in the whole range of the system's parameters. This way, we prove that superpositions of two current states in spatially closed spin networks are characterized by specific peaks in extractable energy, generally overcoming the ergotropy of each of the two separate current states characterized by a single winding number. The many-body state dynamics entails to ergotropy evolving in a controlled fashion. The implementation we suggest is based on a Rydberg-atom platform. Optimal transformations able to extract locally the maximum possible amount of energy are sorted out., Comment: 15 pages, 9 figures

Published
2024

3. Synthetic fractional flux quanta in a ring of superconducting qubits

Author

Chirolli, Luca, Polo, Juan, Catelani, Gianluigi, and Amico, Luigi

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

A ring of capacitively-coupled transmons threaded by a synthetic magnetic field is studied as a realization of a strongly interacting bosonic system. The synthetic flux is imparted through a specific Floquet modulation scheme based on a suitable periodic sequence of Lorentzian pulses that are known as `Levitons'. Such scheme has the advantage to preserve the translation invariance of the system and to work at the qubits sweet spots. We employ this system to demonstrate the concept of fractional values of flux quanta. Although such fractionalization phenomenon was originally predicted for bright solitons in cold atoms, it may be in fact challenging to access with that platform. Here, we show how fractional flux quanta can be read-out in the absorption spectrum of a suitable 'scattering experiment' in which the qubit ring is driven by microwaves., Comment: Main: 5 pages + 3 figures, Sup. Mat: 9 pages + 6 figures

Published
2024

4. Quantum superpositions of current states in Rydberg-atom networks

Author

Perciavalle, Francesco, Rossini, Davide, Polo, Juan, Morsch, Oliver, and Amico, Luigi

Subjects
Quantum Physics, Condensed Matter - Quantum Gases
Abstract

Quantum simulation of many-body quantum systems using Rydberg-atom platforms has become of extreme interest in the last years. The possibility to realize spin Hamiltonians and the accurate control at the single atom level paved the way for the study of quantum phases of matter and dynamics. Here, we propose a quantum optimal control protocol to engineer current states: quantum states characterized by Rydberg excitations propagating in a given spatially closed tweezer networks. Indeed, current states with different winding numbers can be generated on demand. Besides those ones with single winding number, superposition of quantum current states characterized by more winding numbers can be obtained. The single current states are eigenstates of the current operator that therefore can define an observable that remains persistent at any time. In particular, the features of the excitations dynamics reflects the nature of current states, a fact that in principle can be used to characterize the nature of the flow experimentally without the need of accessing high order correlators., Comment: 16 pages, 10 figures

Published
2024
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5. Perspective on new implementations of atomtronic circuits

Author

Polo, Juan, Chetcuti, Wayne J., Domanti, Enrico C., Kitson, Philip, Osterloh, Andreas, Perciavalle, Francesco, Singh, Vijay Pal, and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics, Quantum Physics
Abstract

In this article, we provide perspectives for atomtronics circuits on quantum technology platforms beyond simple bosonic or fermionic cold atom matter-wave currents. Specifically, we consider (i) matter-wave schemes with multi-component quantum fluids; (ii) networks of Rydberg atoms that provide a radically new concept of atomtronics circuits in which the flow, rather than in terms of matter, occurs through excitations; (iii) hybrid matter-wave circuits - cavities systems that can be used to study atomtronic circuits beyond the standard solutions and provide new schemes for integrated matter-wave networks. We also sketch how driving these systems can open new pathways for atomtronics.

Published
2023
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6. Shapiro steps in driven atomic Josephson junctions

Author

Singh, Vijay Pal, Polo, Juan, Mathey, Ludwig, and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

We study driven atomic Josephson junctions realized by coupling two two-dimensional atomic clouds with a tunneling barrier. By moving the barrier at a constant velocity, dc and ac Josephson regimes are characterized by a zero and nonzero atomic density difference across the junction, respectively. Here, we monitor the dynamics resulting in the system when, in addition to the above constant velocity protocol, the position of the barrier is periodically driven. We demonstrate that the time-averaged particle imbalance features a step-like behavior that is the analog of Shapiro steps observed in driven superconducting Josephson junctions. The underlying dynamics reveals an intriguing interplay of the vortex and phonon excitations, where Shapiro steps are induced via suppression of vortex growth. We study the system with a classical-field dynamics method, and benchmark our findings with a driven circuit dynamics., Comment: 7+4 pages, 4+5 figures; To be published in PRL

Published
2023

8. Soliton versus single photon quantum dynamics in arrays of superconducting qubits

Author

Blain, Ben, Marchegiani, Giampiero, Polo, Juan, Catelani, Gianluigi, and Amico, Luigi

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

Superconducting circuits constitute a promising platform for future implementation of quantum processors and simulators. Arrays of capacitively coupled transmon qubits naturally implement the Bose-Hubbard model with attractive on-site interaction. The spectrum of such many-body systems is characterised by low-energy localised states defining the lattice analog of bright solitons. Here, we demonstrate that these bright solitons can be pinned in the system, and we find that a soliton moves while maintaining its shape. Its velocity obeys a scaling law in terms of the combined interaction and number of constituent bosons. In contrast, the source-to-drain transport of photons through the array occurs through extended states that have higher energy compared to the bright soliton. For weak coupling between the source/drain and the array, the populations of the source and drain oscillate in time, with the chain remaining nearly unpopulated at all times. Such a phenomenon is found to be parity dependent. Implications of our results for the actual experimental realisations are discussed.

Published
2022
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9. Exact one-particle density matrix for SU($N$) fermionic matter-waves in the strong repulsive limit

Author

Osterloh, Andreas, Polo, Juan, Chetcuti, Wayne J., and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons, Quantum Physics
Abstract

We consider a gas of repulsive $N$-component fermions confined in a ring-shaped potential, subject to an effective magnetic field. For large repulsion strengths, we work out a Bethe ansatz scheme to compute the two-point correlation matrix and then the one-particle density matrix. Our results holds in the mesoscopic regime of finite but sufficiently large number of particles and system size that are not accessible by numerics. We access the momentum distribution of the system and analyse its specific dependence of interaction, magnetic field and number of components $N$. In the context of cold atoms, the exact computation of the correlation matrix to determine the interference patterns that are produced by releasing cold atoms from ring traps is carried out., Comment: 15 revtex pages, 6 figures

Published
2022
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10. Massive particle interferometry with lattice solitons

Author

Naldesi, Piero, Polo, Juan, Drummond, Peter D., Dunjko, Vanja, Amico, Luigi, Minguzzi, Anna, and Olshanii, Maxim

Subjects
Condensed Matter - Quantum Gases
Abstract

We discuss an interferometric scheme employing interference of bright solitons formed as specific bound states of attracting bosons on a lattice. We revisit the proposal of Castin and Weiss [Phys. Rev. Lett. vol. 102, 010403 (2009)] for using the scattering of a quantum matter-wave soliton on a barrier in order to create a coherent superposition state of the soliton being entirely to the left of the barrier and being entirely to the right of the barrier. In that proposal, it was assumed that the scattering is perfectly elastic, i.e.\ that the center-of-mass kinetic energy of the soliton is lower than the chemical potential of the soliton. Here we relax this assumption: By employing a combination of Bethe ansatz and DMRG based analysis of the dynamics of the appropriate many-body system, we find that the interferometric fringes persist even when the center-of-mass kinetic energy of the soliton is above the energy needed for its complete dissociation into constituent atoms., Comment: arXiv admin note: substantial text overlap with arXiv:2201.10479

Published
2022
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11. Vaccine–carditis study: Spanish multicenter registry of inflammatory heart disease after COVID-19 vaccination

Author

Pastor Pueyo, Pablo, Gambó Ruberte, Elena, Gayán Ordás, Jara, Matute Blanco, Lucía, Pascual Figal, Domingo, Larrañaga Moreira, José María, Gómez Barrado, José Javier, González Calle, David, Almenar Bonet, Luis, Alonso Salinas, Gonzalo Luis, Corbí Pascual, Miguel José, Plaza Martín, María, Pons Llinares, Jaume, Durante López, Alejandro, Barreiro Pérez, Manuel, Candanedo Ocaña, Fernando, Bautista García, Javier, Merchán Ortega, Germán, Domínguez Rodríguez, Fernando, Martínez Mateo, Virgilio, Campreciós Crespo, Marta, Quintás Guzmán, Martín, Jordán Martínez, Laura, Aboal Viñas, Jaime, Rodríguez López, Judit, Fernández Santos, Sara, Revilla Martí, Pablo, Álvarez Roy, Laura, Gómez Polo, Juan Carlos, García Pinilla, José Manuel, Ferré Vallverdú, María, García Bueno, Lourdes, Soriano Colomé, Toni, and Worner Diz, Fernando

Published
2024
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12. Interference dynamics of matter-waves of SU($N$) fermions

Author

Chetcuti, Wayne J., Osterloh, Andreas, Amico, Luigi, and Polo, Juan

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

We analyze the two main physical observables related to the momenta of strongly correlated SU($N$) fermions in ring-shaped lattices pierced by an effective magnetic flux: homodyne (momentum distribution) and self-heterodyne interference patterns. We demonstrate how their analysis allows us to monitor the persistent current pattern. We find that both homodyne and self-heterodyne interference display a specific dependence on the structure of the Fermi distribution and particles' correlations. For homodyne protocols, the momentum distribution is affected by the particle statistics in two distinctive ways. The first effect is a purely statistical one: at zero interactions, the characteristic hole in the momentum distribution around the momentum $\mathbf{k}=0$ opens up once half of the SU($N$) Fermi sphere is displaced. The second effect originates from interaction: the fractionalization in the interacting system manifests itself by an additional `delay' in the flux for the occurrence of the hole, that now becomes a depression at $\mathbf{k}=0$. In the case of self-heterodyne interference patterns, we are not only able to monitor, but also observe the fractionalization. Indeed, the fractionalized angular momenta, due to level crossings in the system, are reflected in dislocations present in interferograms. Our analysis demonstrate how the study of the interference fringes grants us access to both number of particles and number of components of SU($N$) fermions., Comment: 35 revtex pages, 21 figures

Published
2022
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13. Coherent phase slips in coupled matter-wave circuits

Author

Pérez-Obiol, Axel, Polo, Juan, and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases
Abstract

Quantum Phase slips are dual process of particle tunneling in coherent networks. Besides to be of central interest for condensed matter physics, quantum phase slips are resources that are sought to be manipulated in quantum circuits. Here, we devise a specific matter-wave circuit enlightening quantum phase slips. Specifically, we investigate the quantum many body dynamics of two side-by-side ring-shaped neutral bosonic systems coupled through a weak link. By imparting a suitable magnetic flux, persistent currents flow in each ring with given winding numbers. We demonstrate that coherent phase slips occur as winding number transfer among the two rings, with the populations in each ring remaining nearly constant. Such a phenomenon occurs as a result of a specific entanglement of circulating states, that, as such cannot be captured by a mean field treatment of the system. Our work can be relevant for the observation of quantum phase slips in cold atoms experiments and their manipulation in matter-wave circuits. To make contact with the field, we show that the phenomenon has clear signatures in the momentum distribution of the system providing the time of flight image of the condensate.

Published
2021
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14. Probe for bound states of SU(3) fermions and colour deconfinement

Author

Chetcuti, Wayne J., Polo, Juan, Osterloh, Andreas, Castorina, Paolo, and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics, High Energy Physics - Theory, Nuclear Theory, Quantum Physics
Abstract

Fermionic artificial matter realized with cold atoms grants access to an unprecedented degree of control on sophisticated many-body effects with an enhanced flexibility of the operating conditions. We consider three-component fermions with attractive interactions to study the formation of complex bound states whose nature goes beyond the standard fermion pairing occurring in quantum materials. Such systems display clear analogies with quark matter. Here, we address the nature of the bound states of a three-component fermionic system in a ring-shaped trap through the persistent current. In this way, we demonstrate that we can distinguish between color superfluid and trionic bound states. By analyzing finite temperature effects, we show how finite temperature can lead to the deconfinement of bound states. For weak interactions the deconfinement occurs because of scattering states. In this regime, the deconfinement depends on the trade-off between interactions and thermal fluctuations temperature. For strong interactions the features of the persistent current result from the properties of a suitable gas of bound states., Comment: 19 pages, 20 figures

Published
2021
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15. Formation of local and global currents in a toroidal Bose--Einstein condensate via an inhomogeneous artificial gauge field

Author

Hejazi, S. Sahar S., Polo, Juan, and Tsubota, Makoto

Subjects
Condensed Matter - Quantum Gases
Abstract

We study the effects of a position-dependent artificial gauge field on an atomic Bose--Einstein condensate in quasi-one-dimensional and two-dimensional ring settings. The inhomogeneous artificial gauge field can induce global and local currents in the Bose--Einstein condensate via phase gradients along the ring and vortices, respectively. We observe two different regimes in the system depending on the radial size of the ring and strength of the gauge field. For weak artificial gauge fields, the angular momentum increases, as expected, in a quantized manner; however, for stronger values of the fields, the angular momentum exhibits a linear (non-quantized) behavior. We also characterize the angular momentum for non-cylindrically symmetric traps.

Published
2021
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17. Deep learning based quantum vortex detection in atomic Bose-Einstein condensates

Author

Metz, Friederike, Polo, Juan, Weber, Natalya, and Busch, Thomas

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Disordered Systems and Neural Networks
Abstract

Quantum vortices naturally emerge in rotating Bose-Einstein condensates (BECs) and, similarly to their classical counterparts, allow the study of a range of interesting out-of-equilibrium phenomena like turbulence and chaos. However, the study of such phenomena requires to determine the precise location of each vortex within a BEC, which becomes challenging when either only the condensate density is available or sources of noise are present, as is typically the case in experimental settings. Here, we introduce a machine learning based vortex detector motivated by state-of-the-art object detection methods that can accurately locate vortices in simulated BEC density images. Our model allows for robust and real-time detection in noisy and non-equilibrium configurations. Furthermore, the network can distinguish between vortices and anti-vortices if the condensate phase profile is also available. We anticipate that our vortex detector will be advantageous both for experimental and theoretical studies of the static and dynamical properties of vortex configurations in BECs., Comment: 13+8 pages, 5+4 figures

Published
2020
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18. The quantum solitons atomtronic interference device

Author

Polo, Juan, Naldesi, Piero, Minguzzi, Anna, and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

We study a quantum many-body system of attracting bosons confined in a ring-shaped potential and interrupted by a weak link. With such architecture, the system defines atomtronic quantum interference devices harnessing quantum solitonic currents. We demonstrate that the system is characterized by the specific interplay between the interaction and the strength of the weak link. In particular, we find that, depending on the operating conditions, the current can be a universal function of the relative size between the strength of the impurity and interaction. The low lying many-body states are studied through a quench dynamical protocol that is the atomtronic counterpart of Rabi interferometry. With this approach, we demonstrate how our system defines a two level system of coupled solitonic currents. The current states are addressed through the analysis of the momentum distribution.

Published
2020
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19. Symmetry breaking in binary Bose-Einstein condensates in the presence of an inhomogeneous artificial gauge field

Author

Hejazi, S. Sahar S., Polo, Juan, Sachdeva, Rashi, and Busch, Thomas

Subjects
Condensed Matter - Quantum Gases
Abstract

We study a two component Bose-Einstein condensate in the presence of an inhomogeneous artificial gauge field. In response to this field, the condensate forms a localised vortex lattice structure that leads to a non-trivial symmetry breaking in the phase separated regime. The underlying physical mechanism can be understood by considering the energy landscape and we present a simplified model that is capable of reproducing the main features of the phase separation transition. The intuition gained by numerically solving this simplified model is then corroborated using the analytical Thomas-Fermi model.

Published
2020
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20. Current production in ring condensates with a weak link

Author

Pérez-Obiol, Axel, Polo, Juan, and Cheon, Taksu

Subjects
Condensed Matter - Quantum Gases
Abstract

We consider attractive and repulsive condensates in a ring trap stirred by a weak link, and analyze the spectrum of solitonic trains dragged by the link, by means of analytical expressions for the wave functions, energies and currents. The precise evolution of current production and destruction in terms of defect formation in the ring and in terms of stirring is studied. We find that any excited state can be coupled to the ground state through two proposed methods: either by adiabatically tuning the link's strength and velocity through precise cycles which avoid the critical velocities and thus unstable regions, or by keeping the link still while setting an auxiliary potential and imprinting a nonlinear phase as the potential is turned off. We also analyze hysteresis cycles through the spectrum of energies and currents., Comment: 10 pages, 6 figures

Published
2020
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21. Universal shock-wave propagation in one-dimensional Bose fluids

Author

Dubessy, Romain, Polo, Juan, Perrin, Hélène, Minguzzi, Anna, and Olshanii, Maxim

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics
Abstract

We propose a protocol for creating moving, robust dispersive shock waves in interacting one-dimensional Bose fluids. The fluid is prepared in a moving state by phase imprinting and sent against the walls of a box trap. We demonstrate that the thus formed shock wave oscillates for several periods and is robust against thermal fluctuations. We show that this large amplitude dynamics is universal across the whole spectrum of the interatomic interaction strength, from weak to strong interactions, and it is fully controlled by the sound velocity inside the fluid. Our work provides a generalization of the dispersive-shock-wave paradigm to the many-body regime. The shock waves we propose are within reach for ultracold atom experiments.

Published
2020
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24. Exact results for persistent currents of two bosons in a ring lattice

Author

Polo, Juan, Naldesi, Piero, Minguzzi, Anna, and Amico, Luigi

Subjects
Condensed Matter - Quantum Gases
Abstract

We study the ground state of two interacting bosonic particles confined in a ring-shaped lattice potential and subjected to a synthetic magnetic flux. The system is described by the Bose-Hubbard model and solved exactly through a plane-wave Ansatz of the wave function. We obtain energies and correlation functions of the system both for repulsive and attractive interactions. In contrast with the one-dimensional continuous theory described by the Lieb-Liniger model, in the lattice case we prove that the center of mass of the two particles is coupled with its relative coordinate. Distinctive features clearly emerge in the persistent current of the system. While for repulsive bosons the persistent current displays a periodicity given by the standard flux quantum for any interaction strength, in the attractive case the flux quantum becomes fractionalized in a manner that depends on the interaction. We also study the density after the long time expansion of the system which provides an experimentally accessible route to detect persistent currents in cold atom settings. Our results can be used to benchmark approximate schemes for the many-body problem.

Published
2019
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26. Comprehensive Assessment of Myocardial Ischemia Mechanisms in the Catheterization Laboratory: Design and Rationale of the Advanced Invasive Diagnosis Strategy for Patients with Stable Coronary Syndromes Undergoing Coronary ANGIOgraphy - the AID-ANGIO Study

Author

Jeronimo, Adrian, Travieso, Alejandro, Paredes-Vázquez, José G., Finocchiaro, Francesca, Shabbir, Asad, Faria, Daniel, Gómez-Polo, Juan Carlos, Fernández-Rozas, Inmaculada, Grande-Ingelmo, Juan Manuel, García-Romo, Eva, Pérez-Velasco, Javier García, García-Lledó, Alberto, Curcio, Alejandro, Alonso-Bello, Javier, Gonzalo, Nieves, Mejía-Rentería, Hernán, and Escaned, Javier

Published
2023
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27. Oscillations and decay of superfluid currents in a one-dimensional Bose gas on a ring

Author

Polo, Juan, Dubessy, Romain, Pedri, Paolo, Perrin, Helene, and Minguzzi, Anna

Subjects
Condensed Matter - Quantum Gases
Abstract

We study the time evolution of a supercurrent imprinted on a one-dimensional ring of interacting bosons in the presence of a defect created by a localized barrier. Depending on interaction strength and temperature, we identify various dynamical regimes where the current oscillates, is self-trapped or decays with time. We show that the dynamics are captured by a dual Josephson model and involve phase slips of thermal or quantum nature., Comment: 10 pages, 3 figures

Published
2019
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29. Mitral and tricuspid valve disease: diagnosis and management. Consensus document of the Section on Valvular Heart Disease and the Cardiovascular Imaging, Clinical Cardiology, and Interventional Cardiology Associations of the Spanish Society of Cardiology

Author

Cruz-González, Ignacio, Estévez-Loureiro, Rodrigo, Barreiro-Pérez, Manuel, Aguilera-Saborido, Almudena, Olmos-Blanco, Carmen, Rincón, Luis Miguel, Gómez-Polo, Juan Carlos, Arzamendi, Dabit, Borreguero, Luis, Vilacosta, Isidre, Gámez, José María, and Martínez-Monzonis, Amparo

Published
2022
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30. Valvulopatía mitral y tricuspídea: diagnóstico y tratamiento. Posicionamiento conjunto de la Sección de Valvulopatías y las Asociaciones de Imagen, Cardiología Clínica y Cardiología Intervencionista de la SEC

Author

Cruz-González, Ignacio, Estévez-Loureiro, Rodrigo, Barreiro-Pérez, Manuel, Aguilera-Saborido, Almudena, Olmos-Blanco, Carmen, Rincón, Luis Miguel, Gómez-Polo, Juan Carlos, Arzamendi, Dabit, Borreguero, Luis, Vilacosta, Isidre, Gámez, José María, and Martínez-Monzonis, Amparo

Published
2022
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31. Sex differences in the management of patients with acute coronary syndrome: A population-based ecological cross-sectional study in Spain

Author

Ruiz-Nodar, Juan Miguel, Ferreiro, José Luis, Ribera, Aida, Marsal, Josep Ramón, García Acuña, José María, Agra Bermejo, Rosa, Raposeiras-Roubín, Sergio, Abu-Assi, Emad, Cordero, Alberto, Bertomeu-González, Vicente, Chacón Piñero, Antonio, Nogales-Asensio, Juan Manuel, Marín Ortuño, Francisco, Esteve-Pastor, María Asunción, Sánchez, Pedro Luis, Fernández-Avilés, Francisco, Gómez Polo, Juan Carlos, Viana Tejedor, Ana, Ariza Solé, Albert, Sanchis, Juan, Martí Sánchez, David, Carballeira Puentes, Damaris, Almendro-Delia, Manuel, Santás-Álvarez, Melisa, Valls-Serral, Amparo, Lozano, Íñigo, Anguita, Manuel, and Cequier, Ángel

Published
2021
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35. Effects of intravenous lysine acetylsalicylate versus oral aspirin on platelet responsiveness in patients with ST‐segment elevation myocardial infarction: the ECCLIPSE‐STEMI trial

Author

Vivas Balcones, Luis David, Jiménez, José Julio, Martín Asenjo, Roberto, Bernardo, Esther, Ortega Pozzi, María Aranzazu, Gómez Polo, Juan Carlos, Moreno Muñoz, Guillermo, Vilacosta, Isidre, Pérez Villacastín, Julián, Fernández Ortiz, Antonio Ignacio, Vivas Balcones, Luis David, Jiménez, José Julio, Martín Asenjo, Roberto, Bernardo, Esther, Ortega Pozzi, María Aranzazu, Gómez Polo, Juan Carlos, Moreno Muñoz, Guillermo, Vilacosta, Isidre, Pérez Villacastín, Julián, and Fernández Ortiz, Antonio Ignacio

Abstract

Ensayo clínico aleatorizado multicéntrico que evaluó en 32 pacientes con infarto agudo de miocardio el efecto de la administración intravenosa de acetilsalicilato de lisina frente a aspirina oral. El estudio objetivó una inhibición plaquetaria más potente y precoz en los pacientes que recibieron acetilsalicilato de lisina intravenosa. Prasugrel and ticagrelor, new P2Y12-ADP receptor antagonists, are associated with greater pharmacodynamic inhibition and reduction of cardiovascular events in patients with an acute coronary syndrome. However, evidence is lacked about the effects of achieving faster and stronger cyclooxygenase inhibition with intravenous lysine acetylsalicylate (LA) compared to oral aspirin. Recently, we demonstrated in healthy volunteers that the administration of intravenous LA resulted in a significantly reduction of platelet reactivity compared to oral aspirin. Loading dose of LA achieves platelet inhibition faster, and with less variability than aspirin. However, there are no data of this issue in patients with an ST-segment elevation myocardial infarction (STEMI). This is a prospective, randomized, multicenter, open platelet function study conducted in STEMI patients. Subjects were randomly assigned to receive a loading dose (LD) of intravenous LA 450 mg plus oral ticagrelor 180 mg, or LD of aspirin 300 mg plus ticagrelor 180 mg orally. Platelet function was evaluated at baseline, 30 min, 1 h, 4 h and 24 h using multiple electrode aggregometry and vasodilator-stimulated phosphoprotein phosphorylation (VASP). The primary endpoint of the study is the inhibition of platelet aggregation (IPA) after arachidonic acid (AA) 0.5 mM at 30 min. Secondary endpoints were the IPA at 1, 4, and 24 h after AA, and non-AA pathways through the sequence (ADP and TRAP). A total of 32 STEMI patients were randomized (16 LA, 16 aspirin). The inhibition of platelet aggregation after AA 0.5 mM at 30 min was greater in subjects treated with LA compared with aspirin: 166 vs, Hospital San Carlos, Instituto de Salud Carlos III, Depto. de Medicina, Fac. de Medicina, TRUE, pub

Published
2024

37. Cloud Computing and Network Analysis

Author

de la Torre, Cesar, Polo, Juan Carlos, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Borzemski, Leszek, editor, Świątek, Jerzy, editor, and Wilimowska, Zofia, editor

Published
2019
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38. How Edge Computing Transforms the Security of Cloud Computing

Author

de la Torre, Cesar, de la Torre, Marco, Polo, Juan Carlos, Galárraga, Fernando, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Rocha, Álvaro, editor, Ferrás, Carlos, editor, and Paredes, Manolo, editor

Published
2019
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39. Enhancement to the Privacy-Aware Authentication for Wi-Fi Based Indoor Positioning Systems

Author

Barriga A., Jhonattan J., Yoo, Sang Guun, Polo, Juan Carlos, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Zhou, Jianying, editor, Deng, Robert, editor, Li, Zhou, editor, Majumdar, Suryadipta, editor, Meng, Weizhi, editor, Wang, Lingyu, editor, and Zhang, Kehuan, editor

Published
2019
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40. Soliton-based matter wave interferometer

Author

Polo, Juan and Ahufinger, Verònica

Subjects
Condensed Matter - Quantum Gases
Abstract

We consider a matter wave bright soliton interferometer composed of a harmonic potential trap with a Rosen--Morse barrier at its center on which an incident soliton collides and splits into two solitons. These two solitons recombine after a dipole oscillation in the trap at the position of the barrier. We focus on the characterization of the splitting process in the case in which the reflected and transmitted solitons have the same number of atoms. We obtain that the velocity of the split solitons strongly depends on the nonlinearity and on the width of the barrier and that the reflected soliton is in general slower than the transmitted one. Also, we study the phase difference acquired between the two solitons during the splitting and we fit semi-analytically the main dependences with the velocity of the incident soliton, the nonlinearity and the width of the barrier. The implementation of the full interferometer sequence is tested by means of the phase imprinting method., Comment: 9 pages, 8 figures

Published
2013
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48. Hardware Implementation of a Chaotic Circuit Based on a Memristor.

Author

Polo, Juan, López, Hans, and Hernández, Cesar

Subjects
*EMULATION software, *RANDOM numbers, *HARDWARE
Abstract

The utilization of a Memristor in a chaotic circuit paves the way for random number generation. Across other research, authors detected, through simulation tools, the presence of monofractal/multifractal behavior of a memristorbased random number generation. Despite the novelty of the finding, the logical step to follow requires the hardware implementation of the memristor and the chaotic circuit that uses it to investigate the details, limitations, and difficulties not contemplated in the advanced simulations. In light of this objective, this article systematically reviews five memristor emulator circuits, comparing them in terms of cost and frequency of operation. This study proposes a memristor emulator circuit that uses a wave rectifier based on operational amplifiers as a nonlinear element. This memristor and a corresponding reference unit were utilized in a hardware implementation of a chaotic Chua-based circuit. The modifications that are made in conjunction with the measurements made in the laboratory provide evidence that the chaotic system obtained satisfies the essential conditions to be used in a future generator otherwise implemented in hardware that exhibits monofractal/multifractal behavior. [ABSTRACT FROM AUTHOR]

Published
2024

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