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189 results on '"Benítez L"'

1. ROBIN: Rail mOBIlity simulatioN

Author

del Castillo-Herrera, E., García-Ródenas, R., Jimenez-Linares, L., López-García, M.L., López-Gómez, J.A., Martín-Baos, J.A., Moreno-Garcia, J., Muñoz-Valero, D., Rodriguez-Benitez, L., and Villarrubia-Martin, E.A.

Published
2024
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2. Low-symmetry topological materials for large charge-to-spin interconversion: The case of transition metal dichalcogenide monolayers

Author

Vila, Marc, Hsu, Chuang-Han, Garcia, Jose H., Benítez, L. Antonio, Waintal, Xavier, Valenzuela, Sergio, Pereira, Vitor M., and Roche, Stephan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The spin polarization induced by the spin Hall effect (SHE) in thin films typically points out of the plane. This is rooted on the specific symmetries of traditionally studied systems, not in a fundamental constraint. Recently, experiments on few-layer ${\rm MoTe}_2$ and ${\rm WTe}_2$ showed that the reduced symmetry of these strong spin-orbit coupling materials enables a new form of {\it canted} spin Hall effect, characterized by concurrent in-plane and out-of-plane spin polarizations. Here, through quantum transport calculations on realistic device geometries, including disorder, we predict a very large gate-tunable SHE figure of merit $\lambda_s\theta_{xy}\sim 1\text{--}50$ nm in ${\rm MoTe}_2$ and ${\rm WTe}_2$ monolayers that significantly exceeds values of conventional SHE materials. This stems from a concurrent long spin diffusion length ($\lambda_s$) and charge-to-spin interconversion efficiency as large as $\theta_{xy} \approx 80$\%, originating from momentum-invariant (persistent) spin textures together with large spin Berry curvature along the Fermi contour, respectively. Generalization to other materials and specific guidelines for unambiguous experimental confirmation are proposed, paving the way towards exploiting such phenomena in spintronic devices. These findings vividly emphasize how crystal symmetry and electronic topology can govern the intrinsic SHE and spin relaxation, and how they may be exploited to broaden the range and efficiency of spintronic materials and functionalities., Comment: Published version, Phys. Rev. Reserach

Published
2020
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3. Tunable room-temperature spin galvanic and spin Hall effects in van der Waals heterostructures

Author

Benítez, L. Antonio, Torres, Williams Savero, Sierra, Juan F., Timmermans, Matias, Garcia, Jose H., Roche, Stephan, Costache, Marius V., and Valenzuela, Sergio O.

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

Spin-orbit coupling stands as a powerful tool to interconvert charge and spin currents and to manipulate the magnetization of magnetic materials through the spin torque phenomena. However, despite the diversity of existing bulk materials and the recent advent of interfacial and low-dimensional effects, control of the interconvertion at room-temperature remains elusive. Here, we unequivocally demonstrate strongly enhanced room-temperature spin-to-charge (StC) conversion in graphene driven by the proximity of a semiconducting transition metal dichalcogenide(WS2). By performing spin precession experiments in properly designed Hall bars, we separate the contributions of the spin Hall and the spin galvanic effects. Remarkably, their corresponding conversion effiencies can be tailored by electrostatic gating in magnitude and sign, peaking nearby the charge neutrality point with a magnitude that is comparable to the largest efficiencies reported to date. Such an unprecedented electric-field tunability provides a new building block for spin generation free from magnetic materials and for ultra-compact magnetic memory technologies., Comment: 13 pages, 4 figures

Published
2019
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4. Modeling tumorspheres reveals cancer stem cell niche building and plasticity

Author

Benítez, L., Barberis, L., and Condat, C. A.

Subjects
Quantitative Biology - Cell Behavior, Condensed Matter - Other Condensed Matter
Abstract

Cancer stem cells have been shown to be critical to the development of a variety of solid cancers. The precise interplay mechanisms between cancer stem cells and the rest of a tissue are still not elucidated. To shed light on the interactions between stem and non-stem cancer cell populations we develop a two-population mathematical model, which is suitable to describe tumorsphere growth. Both interspecific and intraspecific interactions, mediated by the microenvironment, are included. We show that there is a tipping point, characterized by a transcritical bifurcation, where a purely non-stem cell attractor is replaced by a new attractor that contains both stem and differentiated cancer cells. The model is then applied to describe the outcome of a recent experiment. This description reveals that, while the intraspecific interactions are inhibitory, the interspecific interactions stimulate growth. This can be understood in terms of stem cells needing differentiated cells to reinforce their niches, and phenotypic plasticity favoring the de-differentiation of differentiated cells into cancer stem cells. We posit that this is a consequence of the deregulation of the quorum sensing that maintains homeostasis in healthy tissues., Comment: 18 pg

Published
2019
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7. Spin precession and spin Hall effect in monolayer graphene/Pt nanostructures

Author

Torres, W. Savero, Sierra, J. F., Benítez, L. A., Bonell, F., Costache, M. V., and Valenzuela, S. O.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spin Hall effects have surged as promising phenomena for spin logics operations without ferromagnets. However, the magnitude of the detected electric signals at room temperature in metallic systems has been so far underwhelming. Here, we demonstrate a two-order of magnitude enhancement of the signal in monolayer graphene/Pt devices when compared to their fully metallic counterparts. The enhancement stems in part from efficient spin injection and the large resistivity of graphene but we also observe 100% spin absorption in Pt and find an unusually large effective spin Hall angle of up to 0.15. The large spin-to-charge conversion allows us to characterise spin precession in graphene under the presence of a magnetic field. Furthermore, by developing an analytical model based on the 1D diffusive spin-transport, we demonstrate that the effective spin-relaxation time in graphene can be accurately determined using the (inverse) spin Hall effect as a means of detection. This is a necessary step to gather full understanding of the consequences of spin absorption in spin Hall devices, which is known to suppress effective spin lifetimes in both metallic and graphene systems., Comment: 14 pages, 6 figures. Accepted in 2D Materials. https://doi.org/10.1088/2053-1583/aa8823

Published
2017

14. A trimeric glycosylated GH45 cellulase from the red abalone (Haliotis rufescens) exhibits endo and exoactivity.

Author

Hernández-Benítez, L. Joshua, Ramírez-Rodríguez, Miguel A., Hernández-Santoyo, Alejandra, and Rodríguez-Romero, Adela

Subjects
*ABALONES, *CELLULASE, *GEL permeation chromatography, *AMINO acid sequence, *CIRCULAR dichroism, *MOLECULAR weights
Abstract

The red abalone (Haliotis rufescens) represents North America's most important aquaculture species. Its hepatopancreas is rich in cellulases and other polysaccharide-degrading enzymes, which provide it the remarkable ability to digest cellulose-rich macroalgae; nevertheless, its cellulolytic systems are poorly explored. This manuscript describes some functional and structural properties of an endogenous trimeric glycosylated endoglucanase from H. rufescens. The purified enzyme showed a molecular mass of 23.4 kDa determined by MALDI-TOF mass spectrometry, which behaved as a homotrimer in gel filtration chromatography and zymograms. According to the periodic acid-Schiff reagent staining, detecting sugar moieties in SDS-PAGE gel confirmed that abalone cellulase is a glycoprotein. Hydrolysis of cello-oligosaccharides and p-nitrophenyl-β-D-glucopyranosides confirmed its endo/exoactivity. A maximum enzyme activity toward 0.5% (w/v) carboxymethylcellulose of 53.9 ± 1.0 U/mg was achieved at 45°C and pH 6.0. We elucidated the abalone cellulase primary structure using proteases and mass spectrometry methods. Based on these results and using a bioinformatic approach, we identified the gene encoding this enzyme and deduced its full-length amino acid sequence; the mature protein comprised 177 residues with a calculated molecular mass of 19.1 kDa and, according to sequence similarity, it was classified into the glycosyl-hydrolase family 45 subfamily B. An AlphaFold theoretical model and docking simulations with cellopentaose confirmed that abalone cellulase is a β-sheet rich protein, as also observed by circular dichroism experiments, with conserved catalytic residues: Asp26, Asn109, and Asp134. Interestingly, the AlphaFold-Multimer analysis indicated a trimeric assembly for abalone cellulase, which supported our experimental findings. The discovery and characterization of these enzymes may contribute to developing efficient cellulose bioconversion processes for biofuels and sustainable bioproducts. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Prevalence and distribution of hepatitis C virus genotypes in Spain during the 2000‐2015 period (the GEHEP 005 study)

Author

Aguilera, A., Navarro, D., Rodríguez‐Frias, F., Viciana, I., Martínez‐Sapiña, A. M., Rodríguez, M. J., Martró, E., Lozano, M. C., Coletta, E., Cardeñoso, L., Suárez, A., Trigo, M., Rodríguez‐Granjer, J., Montiel, N., de la Iglesia, A., Alados, J. C., Vegas, C., Bernal, S., Fernández‐Cuenca, F., Pena, M. J., Reina, G., García‐Bujalance, S., Echevarria, M. J., Benítez, L., Pérez‐Castro, S., Ocete, D., García‐Arata, I., Guerrero, C., Rodríguez‐Iglesias, M., Casas, P., and García, F.

Published
2017
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27. The Contribution of QF-PCR and Pathology Studies in the Diagnosis of Diandric Triploidy/Partial Mole

Author

Benítez L, Pauta M, Badenas C, Madrigal I, Nadal A, Marimon-Garcia E, and Borrell A

Subjects
embryonic structures, molecular analysis, pathological analysis, triploidies, paternal origin, reproductive and urinary physiology, QF-PCR
Abstract

OBJECTIVE: the aim of our study was to assess the contribution of quantitative fluorescent polymerase chain reaction (QF-PCR) and pathology studies in the diagnosis of diandric triploidies/partial hydatidiform moles. METHODS: this study included all fet al triploidies diagnosed by QF-PCR in chorionic villi or amniotic fluid in the 2 centers of BCNatal in which a maternal saliva sample was used to establish its parental origin. Pathology studies were performed in products of conception and concordance between a partial hydatidiform mole diagnosis and the finding of a diandric triploidy was assessed. RESULTS: among 46 fetal triploidies, found in 13 ongoing pregnancies and in 33 miscarriages, there were 26 (56%) diandric triploidies. Concordant molecular (diandric triploidy) and pathology results (partial mole) were achieved in 14 cases (54%), while in 6 cases (23%) pathology studies were normal, and in the remaining 6 cases (23%) pathology studies could not be performed because miscarriage was managed medically. CONCLUSIONS: diandric triploidy is associated with partial hydatidiform mole and its diagnosis is crucial to prevent the development of persistent trophoblastic disease. QF-PCR analysis in chorionic villi or amniotic fluid provides a more accurate diagnosis of the parental origin of triploidy than the classical pathology studies.

Published
2021

28. Latency to delivery in physical examination-indicated cerclage in twins is similar to that in singleton pregnancies

Author

Ponce J, Benítez L, Baños-Lopez N, Goncé A, Mar Bennasar Sans, Muñoz M, Cobo-Cobo T, and Palacio-Navarro A

Subjects
membrane exposure, bulging membranes, twin pregnancy, cervical insufficiency, preterm delivery, physical examination-indicated cerclage, latency
Abstract

OBJECTIVE: To compare latency to delivery and perinatal outcomes between twin and singleton pregnancies undergoing physical examination-indicated cerclage. METHODS: Retrospective observational study (2007-2017) of women who underwent physical examination-indicated cerclage at the Hospital Clinic of Barcelona. Primary outcomes were latency from cerclage to delivery and gestational age at delivery. Secondary outcomes included: neonatal morbidity and mortality, preterm prelabor rupture of membranes, clinical chorioamnionitis and cerclage displacement. Wilcoxon-test and ?(2) test were used to compare continuous and categorical variables. RESULTS: Sixty women were included (17 twins and 43 singletons). There were no differences in gestational age at cerclage or presence of bulging membranes between groups. Median (25th;75th percentile) gestational age at delivery was 27.1 (24.5;32.3) weeks in the twin group and 27.6 (25.3;35.3) weeks in the singleton group (P = 0.594). There were no statistically significant differences in latency from cervical cerclage to delivery between the two groups (43 days [21;64] vs. 29 days [16;76], respectively; P = 0.938). There were no differences in neonatal mortality (2/26 [7.7%] vs. 1/33 [3.1%]; P = 0.578) or in composite neonatal morbidity (14 [53.9%] vs. 14 [42.4%]; P = 0.283) between groups, respectively. CONCLUSION: These results suggest that physical examination-indicated cerclage placement in twins could prolong latency to delivery similarly to singleton pregnancies.

Published
2021

31. Strongly anisotropic spin relaxation in graphene– transition metal dichalcogenide heterostructures at room temperature

Author

European Research Council, European Commission, Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Benítez, L. Antonio [0000-0003-1049-4983], Valenzuela, Sergio O. [0000-0002-4632-8891], Benítez, L. Antonio, Sierra, Juan F., Savero Torres, Williams, Arrighi, Aloïs, Bonell, Fréderic, Costache, Marius V., Valenzuela, Sergio O., European Research Council, European Commission, Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Benítez, L. Antonio [0000-0003-1049-4983], Valenzuela, Sergio O. [0000-0002-4632-8891], Benítez, L. Antonio, Sierra, Juan F., Savero Torres, Williams, Arrighi, Aloïs, Bonell, Fréderic, Costache, Marius V., and Valenzuela, Sergio O.

Abstract

A large enhancement in the spin–orbit coupling of graphene has been predicted when interfacing it with semiconducting transition metal dichalcogenides. Signatures of such an enhancement have been reported, but the nature of the spin relaxation in these systems remains unknown. Here, we unambiguously demonstrate anisotropic spin dynamics in bilayer heterostructures comprising graphene and tungsten or molybdenum disulphide (WS2, MoS2). We observe that the spin lifetime varies over one order of magnitude depending on the spin orientation, being largest when the spins point out of the graphene plane. This indicates that the strong spin–valley coupling in the transition metal dichalcogenide is imprinted in the bilayer and felt by the propagating spins. These findings provide a rich platform to explore coupled spin–valley phenomena and offer novel spin manipulation strategies based on spin relaxation anisotropy in two-dimensional materials.

Published
2018

32. Spin-orbit coupling in graphene/transition metal dichalcogenides devices

Author

Benítez, L. Antonio, Valenzuela, Sergio Osvaldo, Roche, Stephan Jean Louis, Costache, Marius Vasile, Mompart Penina, Jordi, and Valenzuela, Sergio O

Subjects
Espintrónica, Ciències Experimentals, Grafè, Grafeno, Espintrònica, Spintronics, Interacción espín-orbita, Graphene, Spin-orbit coupling, 538.9, Acoblament spin-òrbita
Abstract

Aquest treball s'emmarca dins els camps de l'espintrònica i la spin-orbitrònica, l'objectiu final del qual és controlar el grau de llibertat de l'espín de l'electró mitjançant l'acoblament spin-òrbita (SOC) en sistemes d'estat sòlid. La recerca d'un major control de l'espín ha pres una direcció emocionant amb l'aïllament i posterior demostració de la injecció d'espín en grafè. Degut al baix SOC intrínsec del grafè, els espins poden viatjar distàncies llargues a través de la seva xarxa cristal·lina, la qual cosa fa del grafè un canal ideal per al transport d'espins. Tanmateix, el SOC feble del grafè inhibeix la manipulació i la creació de les corrents d'espín mencionades, fonamentals per tal d'implementar amb èxit dispositius basats en l'espín de l'electró. Aquesta limitació pot ser superada augmentant el SOC a través d'efectes de proximitat amb els dicalcogenurs de metalls de transició (TMDC) en estructures de van der Waals heterogènies. Els TMDC són semiconductors bidimensionals que posseeixen un SOC intrínsec fort. En aquesta tesi, utilitzant mesures de transport d'espín, investiguem el SOC induït en el grafè per la proximitat dels TMDC per aconseguir dos objectius principals: 1. Obtenir indicis d'un augment en l'acoblament spin-òrbita i espín-vall en el grafè modificat per la proximitat amb un TMDC semiconductor utilitzant mesures de transport d'espín. 2. Estudiar la possibilitat de generar corrents d'espín utilitzant l'acoblament espín-òrbita induït en el grafè, eina fonamental per a la generació i detecció d'espins sense utilitzar materials magnètics. Per aconseguir aquests objectius, s'han dedicat molts esforços a la fabricació de mostres acuradament dissenyades, a adaptar i proposar protocols experimentals basats en mesures de precessió d'espín, i a l'anàlisi i modelatge de les senyals. Com a resultat, s'ha aconseguit fer diverses contribucions rellevants per a la comprensió dels fenòmens de spin-òrbita en heterostructures de grafè i TMDCs, que resumides d'acord amb els objectius són: 1. La demostració inequívoca d'una dinàmica d'espín anisotròpica en heteroestructures que comprenen grafè, WS2, MoS2 i WSe2. Utilitzant mesures de precessió d'espín obliqua i fora del pla, demostrem que el temps de vida de l'espín és més gran quan els spins apunten fora del pla del grafè. Observem que el temps de vida de l'espín varia en un ordre de magnitud depenent de la seva orientació, indicant que el fort acoblament espín-vall de l'TMDC s'imprimeix en el grafè i és percebut pels espins que es propaguen. A més, mostrem que aquesta relaxació anisotròpica d'espín es pot controlar elèctricament, canviant d'un règim altament anisotròpic a un de gairebé isotròpic. Aquestes troballes proporcionen una plataforma per explorar fenòmens d'acoblament espín-vall, i ofereixen noves estratègies per a la manipulació d'espín basades en l'anisotropia de relaxació d'espín en materials bidimensionals. 2. La demostració d'una conversió de corrents d'espín a corrents de càrrega, i viceversa, en grafè. Aquesta conversió facilitada per la proximitat de l'grafè amb un WS2 i mesurada a temperatura ambient. Realitzant experiments de precessió d'espín en estructures tipus Hall, separem les contribucions de l'efecte Hall i galvànic de spin. Sorprenentment, les eficiències de conversió d'espín corresponents a cadascun dels mecanismes es poden ajustar tant en magnitud com en signe mitjançant una comporta electrostàtica, essent màximes prop del punt de neutralitat de càrrega del grafè. L'eficiència mesurada d'aquests efectes és comparable a les eficiències més grans publicades fins ara. Aquest grau de control assolit mitjançant camps elèctric proporciona una eina per a la generació de corrents d'espín sense utilitzar materials magnètics, i per a tecnologies de memòries magnètiques ultra compactes. El presente trabajo se encuentra dentro de los campos de la espintrónica y la espín-orbitrónica, cuyo objetivo final es controlar el grado de libertad de espín del electrón mediante el acoplamiento espín-órbita (SOC) en sistemas de estado sólido. La búsqueda de un mayor control del espín del electrón ha tomado una dirección emocionante con el aislamiento y la posterior demostración de la inyección de espín en grafeno. Debido al bajo SOC intrínseco del grafeno, los espines pueden viajar largas distancias a través de su red cristalina, lo que convierte al grafeno en un canal ideal para el transporte de espines. Pero al mismo tiempo, el bajo SOC del grafeno inhibe la manipulación y la creación de dichas corrientes de espín, fundamentales para implementar con éxito dispositivos basados en el espín. Sin embargo, podemos superar esta limitación aumentando el SOC del grafeno mediante los efectos de proximidad con los dicalcogenuros de metales de transición (TMDC) en estructuras de van der Waals. Los TMDC son semiconductores bidimensionales que poseen un SOC intrínseco fuerte. En esta tesis, utilizando medidas de transporte de espín, investigamos el SOC inducido en el grafeno por la proximidad a los TMDC para lograr dos objetivos principales: 1. Obtener indicios de un aumento en el acoplamiento espín-órbita y espín-valle en el grafeno modificado por la proximidad a un TMDC semiconductor utilizando medidas de transporte de espín. 2. Estudiar la posibilidad de generar corrientes de espín utilizando el acoplamiento espín-órbita inducido en el grafeno, herramienta fundamental para la generación y detección de espines sin usar materiales magnéticos. Para lograr tales objetivos, se han dedicado muchos esfuerzos a la fabricación de muestras cuidadosamente diseñadas, a adaptar y proponer protocolos experimentales basados en medidas de precesión de espín, y a el análisis y modelado de las señales. Como resultado, se han logrado varias contribuciones relevantes para la comprensión de los fenómenos de espín-órbita en heteroestructuras de grafeno y TMDCs, las cuales resumidas acorde a los objetivos son: 1. La demostración inequívoca de una dinámica de espín anisotrópica en heteroestructuras que comprenden grafeno, WS2, MoS2 y WSe2. Utilizando mediciones de precesión de espín oblicua y fuera del plano, mostramos que el tiempo de vida del espín es mayor cuando los espines apuntan fuera del plano del grafeno. Observamos, además, que el tiempo de vida del espín varía en un orden de magnitud dependiendo de su orientación, lo que indica que el fuerte acoplamiento espín-valle del TMDC se imprime en el grafeno y es percibido por los espines que se propagan. Además, mostramos que dicha relajación anisotrópica de espín se puede controlar eléctricamente, cambiando de un régimen altamente anisotrópico a uno casi isotrópico. Estos hallazgos proporcionan una plataforma para explorar fenómenos de acoplamiento espín-valle, y ofrecen nuevas estrategias para la manipulación de espín basadas en la anisotropía de relajación de espín en materiales bidimensionales. 2. La demostración de una conversión de corrientes de espín a corrientes de carga, y viceversa, en grafeno. Dicha conversión es medida a temperatura ambiente y mediada por la proximidad del grafeno a un WS2. Realizando experimentos de precesión de espín en estructuras tipo Hall, separamos las contribuciones del efecto Hall y galvánico de espín. Sorprendentemente, sus correspondientes eficiencias de conversión se pueden ajustar tanto en magnitud y signo mediante una compuerta electrostática, siendo máximas cerca del punto de neutralidad de carga del grafeno. La eficiencia medida de estos efectos es comparable a las eficiencias más grandes reportadas hasta la fecha. Tal grado de control alcanzado mediante campos eléctrico proporciona una herramienta para la generación de corrientes de espín sin usar materiales magnéticos, y para tecnologías de memorias magnéticas ultra compactas. The presented work is within the fields of spintronics and spin-orbitronics, whose final aim is to control the electron's spin degree of freedom via the spin-orbit coupling (SOC) in solid-state systems. The quest for greater control of the electron's spin has taken an exciting direction with the isolation and later demonstration of spin injection in graphene. Because of the graphene intrinsic low SOC, spins can travel over long distances through its crystal lattice, resulting in an ideal channel for the spin transport. But at the same time, the graphene's low SOC inhibits the manipulation and the generation of spin currents, which are the cornerstone for implementing spin-based devices successfully. We can get over this limitation by enhancing graphene's SOC by proximity with transition metal dichalcogenides (TMDCs) in van der Waals heterostructures. TMDCs are two-dimensional semiconductors that possess a strong intrinsic SOC. In this thesis, using spin transport measurements, we investigate the induced SOC in graphene by the proximity to TMDCs to achieve two main objectives: 1. Obtain signatures of an enhanced spin-orbit and spin-valley coupling in graphene by proximity to a semiconducting TMDC using spin transport measurements. 2. Study the possibility to generate spin currents using the induced spin-orbit in graphene, which would be a building block for spin generation and detection free from magnetic materials. To achieve such objectives, many efforts have been devoted to fabricating carefully designed samples, adapting and proposing experimental protocols based on spin precession measurements, and in the analysis and modeling of the signals. As a result, several relevant contributions to the understanding of spin-orbit phenomena in graphene/TMDCs have been achieved, which summarized according to the objectives are: 1. The unambiguous demonstration of anisotropic spin dynamics in heterostructures comprising graphene, WS2, MoS2, and WSe2. Using out-of-plane and oblique spin precession measurements, we show that the spin lifetime is largest when the spins point out of the graphene plane. We observe that the spin lifetime changes over an order of magnitude depending on the spin orientation, indicating that the strong spin-valley coupling of the TMDC is imprinted in the graphene and felt by the propagating spins. Moreover, we show that such anisotropic spin relaxation can be electrically controlled, changing from a highly anisotropic to a nearly isotropic regime. These findings provide a rich platform to explore coupled spin-valley phenomena and offer novel spin manipulation strategies based on spin relaxation anisotropy in two-dimensional materials. 2. The demonstration of strongly enhanced room-temperature spin-to-charge interconversion in graphene driven by the proximity of WS2. By performing spin precession experiments in Hall bars, we separate the contributions of the spin Hall and the spin galvanic effects. Remarkably, their corresponding conversion efficiencies can be tailored by electrostatic gating in magnitude and sign, peaking nearby the charge neutrality point with an equivalent magnitude that is comparable to the largest efficiencies reported to date. Such an electric-field tunability provides a building block for a spin-generation free from magnetic materials, and for ultra-compact magnetic memory technologies.

Published
2020

33. Magnetism, spin dynamics, and quantum transport in two-dimensional systems

Author

European Commission, European Research Council, Ministerio de Economía y Competitividad (España), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, Savero Torres, Williams, Sierra, Juan F., Benítez, L. Antonio, Bonell, Fréderic, Garcia, Jose H., Roche, Stephan, Valenzuela, Sergio O., European Commission, European Research Council, Ministerio de Economía y Competitividad (España), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, Savero Torres, Williams, Sierra, Juan F., Benítez, L. Antonio, Bonell, Fréderic, Garcia, Jose H., Roche, Stephan, and Valenzuela, Sergio O.

Abstract

Two-dimensional (2D) quantum materials offer a unique platform to explore mesoscopic phenomena driven by interfacial and topological effects. Their tunable electric properties and bidimensional nature enable their integration into sophisticated heterostructures with engineered properties, resulting in the emergence of new exotic phenomena not accessible in other platforms. This has fostered many studies on 2D ferromagnetism, proximity-induced effects, and quantum transport, demonstrating their relevance for fundamental research and future device applications. Here, we review ongoing progress in this lively research field with special emphasis on spin-related phenomena.

Published
2020

34. Spin-orbit phenomena in proximitized graphene

Author

Benítez, L. Antonio, primary, Savero-Torres, Williams, additional, Sierra, Juan F., additional, Arrighi, Aloïs, additional, Timmermans, Matias, additional, Garcia, Jose H., additional, Roche, Stephan, additional, Costache, Marius V., additional, and Valenzuela, Sergio O., additional

Published
2020
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35. Spin-orbit effects and hot-carrier transport in graphene-based devices

Author

Benítez, L. Antonio, Savero Torres, Williams, Sierra, Juan F., Arrighi, Aloïs, Timmermans, Matias, Costache, Marius V., and Valenzuela, Sergio O.

Abstract

Resumen del trabajo presentado al 10th International Symposium on Metallic Multilayers (MML), celebrado en Madrid (España) del 17 al 21 de junio de 2019.

Published
2019

36. Registro de Trauma Ocular Colombiano (ReTOC) – Primer reporte.

Author

Castro, Alberto, Gutiérrez Benítez, L., Mejía, Juan Carlos, Castro, Alberto, Gutiérrez Benítez, L., and Mejía, Juan Carlos

Abstract

Background: eye trauma is an important cause of visual morbidity worldwide. An estimated 55 million eye traumas occur each year despite being preventable in most cases. 3% of these lead to blindness.Objective: to characterize the clinical and epidemiological profile of patients with ocular trauma, in different cities of Colombia, between June 2013 and January 2018.Study design: cross-sectional.Method: it is an observational, descriptive study, whose target population was patients with ocular trauma, attended in different centers and hospitals in Colombia, for retina services between June 2013 and January 2018. A question form was designed using Google forms and different variables were analyzed, based on the Birmingham Eye Trauma Terminology System. The data was filled mainly by retinologists, who receive patients referred from the emergency department.Results: data were collected from 619 patients between June 2013 and January 2018, the most common age range was between 16-30 years, mostly men. The city where the majority of patients registered was in Cali. The commitment of visual acuity was severe in most cases (MM-PL). The most common mechanism of trauma was the occupational accident and the most common lesion was ocular contusion. Most patients did not use protection at the time of the trauma.Conclusion: ocular trauma occurs most commonly in men, young people and in work-related accidents. They presented severe compromise of visual acuity, predominantly the vision of MM to PL. It is the fi rst report of a study of its characteristics in Colombia, giving specific recommendations to the ministry of health and encouraging the registry of more data at a national level to prevent the most important causes of trauma., Introducción: el trauma ocular constituye una causa importante de morbilidad visual en todo el mundo. Se estima que 55 millones de traumas oculares ocurren cada año a pesar de ser prevenibles en la mayoría de los casos.Objetivo: Caracterizar el perfil clínico y epidemiológico de los pacientes con trauma ocular, en diferentes ciudades de Colombia, entre junio de 2013 y enero de 2018.Diseño del estudio: observacional descriptivo, estudio transversalMétodo: es un estudio observacional, descriptivo, cuya población objetivo fueron pacientes con trauma ocular, atendidos en diferentes centros y hospitales en Colombia, por los servicios de retina entre junio de 2013 y enero de 2018. Se diseñó un formulario de preguntas por medio de Google forms y se analizaron diferentes variables, apoyándonos en el Birmingham Eye Trauma Terminology System. Los datos fueron llenados principalmente por retinólogos.Resultados: se recolectaron datos de 619 pacientes entre junio 2013 y enero 2018, el rango de edad fue entre 16-30 años, en su mayoría hombres. La ciudad en donde se registraron la mayoría de los pacientes fue Cali. El compromiso de la agudeza visual (AV) fue severo en la mayoría de los casos (MM-PL) y el mecanismo más común fue el accidente laboral. La lesión más registrada fue la contusión ocular. La mayoría de los pacientes no usaba protección al momento del trauma. Conclusión: el trauma ocular se presentó más comúnmente en hombres, jóvenes en accidentes de tipo laboral. Presentaron compromiso severo de la AV, predominando la visión de MM a PL. Es el primer reporte de un estudio de sus características en Colombia, dando recomendaciones específicas al ministerio de salud y estimulando al registro de más datos a nivel nacional para lograr prevenir las causas más importantes de trauma.

Published
2019

37. Investigating the spin-orbit interaction in van der Waals heterostructures by means of the spin relaxation anisotropy

Author

Generalitat de Catalunya, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Research Council, Ministerio de Economía y Competitividad (España), Benítez, L. Antonio, Sierra, Juan F., Savero Torres, Williams, Timmermans, Matias, Costache, Marius V., Valenzuela, Sergio O., Generalitat de Catalunya, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Research Council, Ministerio de Economía y Competitividad (España), Benítez, L. Antonio, Sierra, Juan F., Savero Torres, Williams, Timmermans, Matias, Costache, Marius V., and Valenzuela, Sergio O.

Abstract

Graphene offers long spin propagation and, at the same time, a versatile platform to engineer its physical properties. Proximity-induced phenomena, taking advantage of materials with large spin-orbit coupling or that are magnetic, can be used to imprint graphene with large spin-orbit coupling and magnetic correlations. However, full understanding of the proximitized graphene and the consequences on the spin transport dynamics requires the development of unconventional experimental approaches. The investigation of the spin relaxation anisotropy, defined as the ratio of lifetimes for spins pointing out of and in the graphene plane, is an important step in this direction. This review discusses various methods for extracting the spin relaxation anisotropy in graphene-based devices. Within the experimental framework, current understanding on spin transport dynamics in single-layer and bilayer graphene is presented. Due to increasing interest, experimental results in graphene in proximity with high spin-orbit layered materials are also reviewed.

Published
2019

40. Isotropic spin relaxation in graphene on hexagonal boron nitride

Author

Benítez, L. Antonio, Arrighi, Aloïs, Sierra, Juan F., Savero Torres, Williams, Costache, Marius V., and Valenzuela, Sergio O.

Subjects
Condensed Matter::Materials Science, Condensed Matter::Strongly Correlated Electrons
Abstract

Resumen del póster presentado al 1st Workshop Spain-Taiwan: "2D Materials and Interfaces for Spintronics", celebrado en Barcelona (España) del 23 al 25 de octubre de 2017., We study the spin-lifetime anisotropy of spin-polarized carriers in graphene on top of hexagonal boron nitride (h-BN) using non-local lateral spin-valve devices (Figure 1) with a method that we recently developed. We first determine the in-plane spin lifetime by conventional spin precession measurements with magnetic fields perpendicular to the graphene plane. Then, to evaluate the out-of-plane spin lifetime, we create an out of plane spin population by applying an oblique magnetic field and determine the relaxation of the non-precessing spin component (Figure 2). We find, within the experimental uncertainty, that the spin relaxation in graphene on boron nitride is isotropic, as it was previously found in graphene on SiO2. This result suggests that the substrate effects present on SiO2, which are expected to be absent or suppressed on h-BN, such as roughness, dangling bonds and charge traps, might play a minor role in making the spin relaxation isotropic and, more generally, in the spin relaxation.

Published
2017

42. Diátesis Hemorrágica en Neonatos Caninos: Reporte de caso.

Author

Callegari, M., Orué, G., Benítez, L., Cieplik, A., and Fernández, L.

Subjects
HEMOPHILIA, MOLECULAR diagnosis, AUTOPSY, NEWBORN infants, PUPPIES
Abstract

Copyright of Compendium of Veterinary Sciences / Compendio de Ciencias Veterinarias is the property of Facultad de Ciencias Veterinarias de la Universidad Nacional de Asuncion and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023

46. In defense of Filipino values and norms: Debunking the ambivalence theory

Author

Benitez Luzano Jiolito

Subjects
ambivalence, character traits, filipino values, norms, virtue, Sociology (General), HM401-1281
Abstract

No nation has been so scorned for her values and norms by her own people, including the most educated of them, as the Philippines. This study critically peruses the ambivalence theory of Filipino values and norms to debunk its central claim that Filipino values and norms are ambivalent due to their inherent potential to be good and evil, right and wrong, virtue and vice, strength and weakness. Using as frameworks of analysis the sociological and psychological postulates of ambivalence as well as the Aristotelian notion of virtue, the perusal yields five paramount findings that sum up the errors of this theory. First, the problematic and dichotomic approach to Filipino values and norms as good and bad, right and wrong, weakness and strength, virtue and vice to warrant the forgone conclusion of ambivalence. Second, the epic confusion in which the transgressive attitudes, traits, and behaviors are deemed part of the defining features of Filipino values and norms. Third, Filipino values are blamed for or used to justify the negative attitudes, weak character traits, and misdeeds of Filipinos. Fourth, the proponents' negative and inconsistent interpretations of Filipino values and norms. Fifth, the sociological and psychological postulates of ambivalence and the Aristotelean concept of virtue do not support the claim of ambivalence. On the strengths of the findings, the ambivalence theory is effectively debunked. With the putative post-ambivalence period, comes the challenge to disabuse the minds of those who have credulously professed the ambivalence creed.

Published
2022
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49. Persistently altered liver test results in hepatitis C patients after sustained virological response with direct‐acting antivirals.

Author

Olveira, A., Domínguez, L., Troya, J., Arias, A., Pulido, F., Ryan, P., Benítez, L. M., González‐García, J., Montes, M. L., and the PALT‐M‐Study Group Investigators

Subjects
HEPATITIS C, ANTIVIRAL agents, DISEASE progression, DISEASE prevalence, LIVER biopsy
Abstract

Summary: Guidelines recommend evaluating persistent alteration of liver tests in HCV‐infected patients after sustained virological response (SVR) and its influence on liver disease progression. We studied the prevalence, etiology, associated factors and evolutionary implications of persistent alteration of liver tests in HCV patients after direct‐acting antivirals (DAA)‐induced SVR. This was a prospective study of HCV‐infected patients and SVR after DAA. Those with another previously diagnosed liver disease were excluded. Persistent alteration of liver tests was defined as any increase in ALT, AST or GGT at SVR12 and SVR24. Causes were determined according to standard clinical practice, including liver biopsy and follow‐up transient elastography. A total of 1112 patients were included (70.8% males, median age 53 years, 38.8% cirrhosis, 34.9% interferon‐experienced, 56.8% HIV‐coinfected). Persistent alteration of liver tests was detected in 130/1112 patients (11.7% [95%CI: 9.7‐13.6]). Its frequency differed between HCV‐monoinfected (45/480: 9.4% [95%CI: 6.7‐12.1]) and HIV‐coinfected (85/632: 13.5% [95%CI: 10.7‐16.2]) (P = .046). In multivariable analysis, cirrhosis (OR 2.12; 95%CI: 1.28‐3.53; P = .004) and baseline transient elastography values (OR 1.03; 95%CI: 1.01‐1.04; P = .000) were associated with persistent alteration of liver tests. The main etiologies were clinical diagnosis suggestive of nonalcoholic fatty liver disease in 47 (36.2%), alcohol in 30 (23.1%) and drug consumption in 19 (14.6%). Baseline and follow‐up transient elastography was performed in 594 patients and showed a significantly different decrease in patients who did or did not have a persistent alteration of liver tests (−21.1% vs −30%, respectively; P = .003), independently of sex, HIV status or baseline TE value. In conclusion, persistent alteration of liver tests is not infrequent after SVR. It is associated with cirrhosis and baseline transient elastography, and the main cause is fatty liver. According to transient elastography changes, persistent alteration of liver tests seems to affect the course of liver disease. [ABSTRACT FROM AUTHOR]

Published
2018
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50. Filipinas

Author

Asunción Benítez L.

Subjects
General Medicine
Abstract

El 30 de junio de 1991 la presidenta Corazón Aquino entregó las riendas del poder a su ex secretario de Defensa, Fidel Ramos, a quien había elegido como su sucesor. Las elecciones, a todos los niveles, de mayo de 1992 no sólo confirmaron el éxito de Aquino en restablecer el sistema electoral que en las Filipinas existió entre 1946 y la declaración de la ley marcial por parte de Ferdinand Marcos en 1972. Previamente el país había estado sometido a las dominaciones española, estadunidense y japonesa. Además, las elecciones mostraron la credibilidad que los votantes le siguen otorgando al sistema democrático, demostraron la vitalidad y la pluralidad de la vida política de Filipinas y destacaron algunas de las graves divisiones dentro de las sociedades que fueron creadas o aumentadas por los largos años de dictadura.

Published
1993
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