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961 results on '"Molnár G"'

1. Picosecond Femtojoule Resistive Switching in Nanoscale VO$_{2}$ Memristors

Author

Schmid, S. W., Pósa, L., Török, T. N., Sánta, B., Pollner, Z., Molnár, G., Horst, Y., Volk, J., Leuthold, J., Halbritter, A., and Csontos, M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Beyond-Moore computing technologies are expected to provide a sustainable alternative to the von Neumann approach not only due to their down-scaling potential but also via exploiting device-level functional complexity at the lowest possible energy consumption. The dynamics of the Mott transition in correlated electron oxides, such as vanadium dioxide, has been identified as a rich and reliable source of such functional complexity. However, its full potential in high-speed and low-power operation has been largely unexplored. We fabricated nanoscale VO$_{2}$ devices embedded in a broad-band test circuit to study the speed and energy limitations of their resistive switching operation. Our picosecond time-resolution, real-time resistive switching experiments and numerical simulations demonstrate that tunable low-resistance states can be set by the application of 20~ps long, $<$1.7~V amplitude voltage pulses at 15~ps incubation times and switching energies starting from a few femtojoule. Moreover, we demonstrate that at nanometer-scale device sizes not only the electric field induced insulator-to-metal transition, but also the thermal conduction limited metal-to-insulator transition can take place at timescales of 100's of picoseconds. These orders of magnitude breakthroughs open the route to the design of high-speed and low-power dynamical circuits for a plethora of neuromorphic computing applications from pattern recognition to numerical optimization.

Published
2024
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3. Giant magnetoresistance and structure of electrodeposited Co/Cu multilayers: the influence of layer thicknesses and Cu deposition potential

Author

Rajasekaran, N., Mani, J., Tóth, B. G., Molnár, G., Mohan, S., Péter, L., and Bakonyi, I.

Subjects
Condensed Matter - Materials Science
Abstract

The giant magnetoresistance (GMR) and structure was investigated for electrodeposited Co/Cu multilayers prepared by a conventional galvanostatic/potentiostatic pulse combination from a pure sulfate electrolyte with various layer thicknesses, total multilayer thickness and Cu deposition potential. X-ray diffraction (XRD) measurements revealed superlattice satellite reflections for many of the multilayers having sufficiently large thickness (at least 2 nm) of both constituent layers. The bilayer repeats derived from the positions of the visible superlattice reflections were typically 10-20% higher than the nominal values.The observed GMR was found to be dominated by the multilayer-like ferromagnetic (FM) contribution even for multilayers without visible superlattice satellites. There was always also a modest superparamagnetic (SPM) contribution to the GMR and this term was the largest for multilayers with very thin (0.5 nm) magnetic layers containg apparently a small amount of magnetically decoupled SPM regions. No oscillatory GMR behavior with spacer thickness was observed at any magnetic layer thickness. The saturation of the coercivity as measured by the peak position of the MR(H) curves indicated a complete decoupling of magnetic layers for large spacer thicknesses. The GMR increased with total multilayer thickness which could be ascribed to an increasing SPM contribution to the GMR due to an increasing surface roughness, also indicated by the increasing coercivity. For multilayers with Cu layers deposited at more and more positive potentials, the GMRFM term increased and the GMRSPM term decreased. At the same time, a corresponding reduction of surface roughness measured with atomic force microscopy indicated an improvement of the multilayer structural quality which was, however, not accompanied by an increase of the superlattice reflection intensities., Comment: 29 pages, 10 figures

Published
2017
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4. Influence of Cu deposition potential on the giant magnetoresistance and surface roughness of electrodeposited Ni-Co/Cu multilayers

Author

Tóth, B. G., Péter, L., Dégi, J., Révész, Á., Oszetzky, D., Molnár, G., and Bakonyi, I.

Subjects
Condensed Matter - Materials Science
Abstract

It has been shown previously for electrodeposited Co/Cu multilayers that the single-bath electrodeposition process can be optimized from an electrochemical point of view in order to avoid unwanted Co dissolution and incorporation of Co in the non-magnetic layer during the Cu deposition pulse. In the present work, electrodeposition of Ni-Co/Cu multilayers has been studied to clarify if the same optimization method is appropriate when two magnetic elements are present and if this potential results in the largest giant magnetoresistance (GMR) for the particular alloy system studied. For this purpose, several Ni-Co/Cu multilayers were prepared by varying the deposition potential of the Cu layer. The composition analysis of the deposits showed that the Ni:Co ratio exhibits a minimum as a function of the Cu deposition potential, which can be explained by considering both the dissolution of Co and the mass transport of the reactants. Both the saturation GMR value and the intensity of the satellite peaks in the X-ray diffractograms were highly correlated with the resulting surface roughness of the deposits which was strongly varying with the Cu deposition potential. Higher GMR values, lower saturation fields and more perfect multilayer structure were observed for sufficiently positive Cu deposition potentials only which enabled a partial Co dissolution resulting in a reduced surface roughness. The results draw attention to the complexity of the optimization procedure of the deposition of multilayers with several alloying components., Comment: 26 pages, 10 figures

Published
2016
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9. EP10.28: Management of severe fetal anemia with intrauterine transfusion in Hungary: the first steps.

Author

Merkely, P.N., Ács, N., Leipold, G., Benko, Z., Molnár, G., Demendi, C., Marton, G.T., Tigharghar, L., Keszthelyi, L., and Hermányi‐Csiki, V.

Subjects
DURATION of pregnancy, CYTOMEGALOVIRUS diseases, FETAL death, CORD blood, PREMATURE labor, HYDROPS fetalis
Abstract

This article discusses the management of severe fetal anemia through intrauterine transfusion at a tertiary center in Budapest, Hungary. Severe fetal anemia is a condition that is often underdiagnosed and can lead to adverse outcomes if left untreated. The study summarizes the results of intrauterine transfusion procedures performed between November 2023 and March 2024, with a total of 7 interventions conducted. The majority of cases involved red-blood cell isoimmunization, and the intrahepatic approach was the preferred method due to its lower complication rate. The procedure has shown promising results in improving perinatal outcomes and extending the duration of pregnancy, but further studies are needed to assess its long-term effectiveness. [Extracted from the article]

Published
2024
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12. Appendixes – Reference Data to Part III

Author

Homonnay, Z., Klencsár, Z., Firestone, R. B., Révay, Z., Molnár, G. L., Csikai, J., Dóczi, R., Vértes, Attila, editor, Nagy, Sándor, editor, Klencsár, Zoltán, editor, Lovas, Rezső G., editor, and Rösch, Frank, editor

Published
2011
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13. Activation Analysis

Author

Zeisler, R., Vajda, N., Kennedy, G., Lamaze, G., Molnár, G. L., Vértes, Attila, editor, Nagy, Sándor, editor, Klencsár, Zoltán, editor, Lovas, Rezső G., editor, and Rösch, Frank, editor

Published
2011
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25. The ‘pargasosphere’ hypothesis: Looking at global plate tectonics from a new perspective

Author

Kovács, I.J., Liptai, N., Koptev, A., Cloetingh, S.A.P.L., Lange, T.P., Matenco, L., Szakács, A., Radulian, M., Berkesi, M., Patkó, L., Molnár, G., Novák, A., Wesztergom, V., Szabó, C., Fancsik, T., and Tectonics

Subjects
Asthenosphere, Lithosphere, Global and Planetary Change, Mid-lithospheric discontinuities, Plate tectonics, Pargasite, Water, Oceanography
Abstract

Apart from the lithosphere-asthenosphere boundary (LAB), mid-lithospheric discontinuities (MLDs) in thick and old continental lithospheres appear to play an important role in global plate tectonics. Initiation of intra-continental subduction, delamination of the lower continental lithospheric mantle and removal of cratonic roots are likely to occur along MLDs. Here we introduce the ‘pargasosphere’ hypothesis which could account for the origin of both boundaries. The observation that pargasitic amphibole is stable even at very low bulk ‘water’ concentration (~a few hundreds ppm wt.) implies that the solidus of the shallow upper mantle (

Published
2021

26. EP10.25: Initiation of fetal therapy at Semmelweis University, Hungary.

Author

Stubnya, M.P., Ács, N., Benko, Z., Leipold, G., Molnár, G., Szentirmay, A., Bödi, Z., Merkely, P.N., Marton, T., Beke, A., Csaba, Á., Lengyel, T., Barad, C., and Kallós, J.K.

Subjects
OBSTETRICS, SMALL states, FETAL abnormalities, HIGH-risk pregnancy, UMBILICAL veins
Abstract

This article discusses the establishment of a Fetal Medicine Task Force at Semmelweis University in Hungary. The task force aims to improve the management of high-risk pregnancies, establish a referral system for patients with fetal abnormalities, and identify candidates for fetal therapy. The article highlights the successful performance of several fetal interventions, such as intrauterine fetal transfusions and relieving cystocentesis. The task force's efforts are seen as a groundbreaking step in the field of Fetal Medicine in Hungary, with the goal of improving perinatal outcomes and reducing mortality and morbidity. [Extracted from the article]

Published
2024
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34. The ‘pargasosphere’ hypothesis: Looking at global plate tectonics from a new perspective

Author

Tectonics, Kovács, I.J., Liptai, N., Koptev, A., Cloetingh, S.A.P.L., Lange, T.P., Matenco, L., Szakács, A., Radulian, M., Berkesi, M., Patkó, L., Molnár, G., Novák, A., Wesztergom, V., Szabó, C., Fancsik, T., Tectonics, Kovács, I.J., Liptai, N., Koptev, A., Cloetingh, S.A.P.L., Lange, T.P., Matenco, L., Szakács, A., Radulian, M., Berkesi, M., Patkó, L., Molnár, G., Novák, A., Wesztergom, V., Szabó, C., and Fancsik, T.

Published
2021

43. Bulk micro-defect detection with low-angle illumination

Author

Szarvas, T., primary, Molnár, G., additional, Nádudvari, Gy., additional, Tóth, Sz., additional, Almásy, O., additional, Spindler, Sz., additional, Erdei, D., additional, Pothorszky, Sz., additional, Kretschmer, R., additional, and Bauer, S., additional

Published
2021
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47. Spin crossover in Fe(triazole)-Pt nanoparticle self-assembly structured at the sub-5 nm scale

Author

Usmani S., Mikolasek M., Gillet A., Sanchez Costa J., Rigoulet M., Chaudret B., Bousseksou A., Lassalle-Kaiser B., Demont P., Molnár G., Salmon L., Carrey J., Tricard S. and We thank Marc Respaud and Sébastien Pinaud for their significant help in magnetic measurements. We also thank Sébastien Cher for experimental support, Thomas Blon for gold evaporation on substrates and Gautier Félix for insightful discussions. We acknowledge SOLEIL for provision of synchrotron radiation facilities on the LUCIA beamline. Financial support from Agence Nationale de la Recherche (PhoCatSA grant ANR-10-LABX-0037-NEXT, MOSC grant ANR-18-CE09-0007 and Nanohybrid grant ANR-13-BS07-0020-01), from the Marie-Curie research program (NanoSCOpe 328078) and from the Indo-French Centre for the Promotion of Advanced Research – CEFIPRA is acknowledged. This study has been partially supported through the EUR grant NanoX n° ANR-17-EURE-0009 in the framework of the Programme des Investissements d’Avenir. JSC is grateful to the Spanish MINECO through National Research Project (CTQ2016-80635-P) and the Ramon y Cajal Research program (RYC-2014-16866).

Published
2020

50. Spin crossover in Fe(triazole)-Pt nanoparticle self-assembly structured at the sub-5 nm scale

Author

Usmani S., Mikolasek M., Gillet A., Sánchez Costa, Jose, Rigoulet M., Chaudret B., Bousseksou A., Lassalle-Kaiser B., Demont P., Molnár G., Salmon L., Carrey J., Tricard S., Usmani S., Mikolasek M., Gillet A., Sánchez Costa, Jose, Rigoulet M., Chaudret B., Bousseksou A., Lassalle-Kaiser B., Demont P., Molnár G., Salmon L., Carrey J., and Tricard S.

Published
2020

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