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18 results on '"E. Fourneau"'

1. Dimensional crossover of microscopic magnetic metasurfaces for magnetic field amplification

Author

N. Lejeune, E. Fourneau, A. Barrera, O. Morris, O. Leonard, J. A. Arregi, C. Navau, V. Uhlíř, S. Bending, A. Palau, and A. V. Silhanek

Subjects
Biotechnology, TP248.13-248.65, Physics, QC1-999
Abstract

Transformation optics applied to low frequency magnetic systems have been recently implemented to design magnetic field concentrators and cloaks with superior performance. Although this achievement has been amply demonstrated theoretically and experimentally in bulk 3D macrostructures, the performance of these devices at low dimensions remains an open question. In this work, we numerically investigate the non-monotonic evolution of the gain of a magnetic metamaterial field concentrator as the axial dimension is progressively shrunk. In particular, we show that in planar structures, the role played by the diamagnetic components becomes negligible, whereas the paramagnetic elements increase their magnetic field channeling efficiency. This is further demonstrated experimentally by tracking the gain of superconductor-ferromagnet concentrators through the superconducting transition. Interestingly, for thicknesses where the diamagnetic petals play an important role in the concentration gain, they also help to reduce the stray field of the concentrator, thus limiting the perturbation of the external field (invisibility). Our findings establish a roadmap and set clear geometrical limits for designing low dimensional magnetic field concentrators.

Published
2024
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3. Tunable domino effect of thermomagnetic instabilities in superconducting films with multiply-connected topological structures

Author

Lu Jiang, Cun Xue, Stefan Marinković, E Fourneau, Tie-Quan Xu, Xin-Wei Cai, N D Nguyen, A V Silhanek, and You-He Zhou

Subjects
General Physics and Astronomy
Abstract

Topology is a crucial ingredient for understanding the physical properties of superconductors. Magnetic field crowds to adopt the form of topologically-protected quantum flux lines which can lose this property when moving at high velocities. These extreme conditions can be realized when superconductors undergo a thermomagnetic instability for which the sample topology come also into play. In this work, utilizing the magneto-optical imaging technique, we experimentally study magnetic flux avalanches in superconducting films with multiply-connected geometries, including single and double rings. We observe a domino effect in which avalanches triggered at the outer ring, stimulate avalanches at the inner ring thus impairing the expected magnetic shielding resulting from the outer ring and gap. We implement numerical simulations in order to gain more insight into the underlying physical mechanism and demonstrate that such event is not caused by the heat conduction, but mainly attributed to the local current distribution variation near the preceding flux avalanche in the outer ring, which in turn has a ripple effect on the local magnetic field profile in the gap. Furthermore, we find that the domino effect of thermomagnetic instabilities can be switched on/off by the environmental temperature and the gap width between the concentric rings. These findings provide new insights on the thermomagnetic instability in superconducting devices with complex topological structures, such as the superconductor–insulator–superconductor multilayer structures of superconducting radio-frequency cavities.

Published
2022
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4. Analyse der Alkohole

Author

J. Rae, Ad. Grün, S. Mendelsohn, A. González, Tadeus Reichstein, E. Fourneau, G. Heller, Th. Wirth, C. H. Spiers, and K. Schülke

Subjects
Engineering, Management science, business.industry, Clinical Biochemistry, Medical laboratory, General Materials Science, Analytical Chemistry (journal), General Medicine, business, Analytical Chemistry
Published
1927
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7. [Not Available]

Author

E, Fourneau

Subjects
Chemistry, History, Modern 1601, France, Biochemistry
Published
1987

11. Versehiedene Stiekstotiverbindungen

Author

S. B. Tallantyre, T. F. Harvey, C. F. Sparks, T. Reichstein, A. Blanchetiére, E. Fisher, E. Fourneau, and P. Fleury

Subjects
Clinical Biochemistry, General Materials Science, General Medicine, Analytical Chemistry
Published
1932
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13. Balsame

Author

E. Fourneau and M. Crespo

Subjects
Biochemistry, Analytical Chemistry
Published
1923
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14. Electromigration-induced resistance switching in indented Al microstrips

Author

J Lombardo, S Collienne, A Petrillo, E Fourneau, N D Nguyen, and A V Silhanek

Subjects
electromigration, memristor, nanofabrication, Science, Physics, QC1-999
Abstract

Non-volatile resistive memory cells are promising candidates to tremendously impact the further development of Boolean and neuromorphic computing. In particular, nanoscale memory-bit cells based on electromigration (EM)-induced resistive switching in monolithic metallic structures have been identified as an appealing and competitive alternative to achieve ultrahigh density while keeping straightforward manufacturing processes. In this work, we investigate the EM-induced resistance switching in indented Al microstrips. In order to guarantee a large switching endurance, we limited the on-to-off ratio to a minimum readable value. Two switching protocols were tested, (i) a variable current pulse amplitude adjusted to ensure a precise change of resistance, and (ii) a fixed current pulse amplitude. Both approaches exhibit an initial training period where the mean value of the device’s resistance drifts in time, followed by a more stable behavior. Electron microscopy imaging of the devices show irreversible changes of the material properties from the early stages of the switching process. High and low resistance states show retention times of days and endurances of ∼10 ^3 switching cycles.

Published
2019
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15. Investigation of Mode-Induced Spin Wave Transmission Blockage by In Situ Nanoscale Grooves.

Author

Delforge C, Lejeune N, Singh S, Silhanek AV, and Fourneau E

Abstract

In the pursuit of advancing spin-wave optics, the propagation of magnetostatic surface spin-waves is investigated in a uniform permalloy waveguide with in-situ nanopatterned grooves created through Atomic Force Microscopy nanolithography and Focused Ion Beam etching. The study unveils that the introduction of narrow constrictions and grooves leads to a non-monotonic reduction of the transmitted spin-wave signal intensity as the spin-wave pathway is shrinked. The remarkable feature that a stronger signal extinction is obtained for a narrow groove compared to a spin-waveguide interrupted by a full gap, where only inefficient transport through dipolar coupling is allowed, is highlighted. Combining experimental and numerical analyses, the intricate interplay between spin-wave diffraction and reflection at the waveguide edges is unraveled, being at the origin of a transverse-mode variation responsible for the signal extinction when detected using coplanar antennas. The findings offer insights into the controllable manipulation of detected spin-wave intensity, thereby opening promising avenues for the improvement of spin-wave switches and interferometers, and for the nanopatterning of graded index magnonics., (© 2024 Wiley‐VCH GmbH.)

Published
2024
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16. A "love match" score to compare root exudate attraction and feeding of the plant growth-promoting rhizobacteria Bacillus subtilis , Pseudomonas fluorescens , and Azospirillum brasilense .

Author

Fourneau E, Pannier M, Riah W, Personeni E, Morvan-Bertrand A, Bodilis J, and Pawlak B

Abstract

Introduction: The rhizosphere is the zone of soil surrounding plant roots that is directly influenced by root exudates released by the plant, which select soil microorganisms. The resulting rhizosphere microbiota plays a key role in plant health and development by enhancing its nutrition or immune response and protecting it from biotic or abiotic stresses. In particular, plant growth-promoting rhizobacteria (PGPR) are beneficial members of this microbiota that represent a great hope for agroecology, since they could be used as bioinoculants for sustainable crop production. Therefore, it is necessary to decipher the molecular dialog between roots and PGPR in order to promote the establishment of bioinoculants in the rhizosphere, which is required for their beneficial functions., Methods: Here, the ability of root exudates from rapeseed ( Brassica napus ), pea ( Pisum sativum ), and ryegrass ( Lolium perenne ) to attract and feed three PGPR ( Bacillus subtilis , Pseudomonas fluorescens , and Azospirillum brasilense ) was measured and compared, as these responses are directly involved in the establishment of the rhizosphere microbiota., Results: Our results showed that root exudates differentially attracted and fed the three PGPR. For all beneficial bacteria, rapeseed exudates were the most attractive and induced the fastest growth, while pea exudates allowed the highest biomass production. The performance of ryegrass exudates was generally lower, and variable responses were observed between bacteria. In addition, P. fluorescens and A. brasilense appeared to respond more efficiently to root exudates than B. subtilis . Finally, we proposed to evaluate the compatibility of each plant-PGPR couple by assigning them a "love match" score, which reflects the ability of root exudates to enhance bacterial rhizocompetence., Discussion: Taken together, our results provide new insights into the specific selection of PGPR by the plant through their root exudates and may help to select the most effective exudates to promote bioinoculant establishment in the rhizosphere., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Fourneau, Pannier, Riah, Personeni, Morvan-Bertrand, Bodilis and Pawlak.)

Published
2024
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17. Can L-PRF be helpful for delayed deep wound healing after a tracheotomy or lymph node dissection in a pN0 status?: A case report.

Author

Fourneau E, Magremanne M, and Dubron K

Abstract

Introduction and Importance: Leukocyte platelet-rich fibrin (L-PRF) is used for its ability to deliver high concentrations of autologous growth factors to host tissues, to promote tissue repair., Case Presentation: This report describes the case of a 48-year-old woman with tongue cancer treated surgically (pT3pN0), who experienced a delay of five weeks in the process of deep wound healing after a tracheotomy and cervical lymph node dissection that was treated with L-PRF. The patient had no risk factors for delayed wound healing, except for active preoperative smoking. Several attempts were made to stimulate bleeding and edge-to-edge closure, without conclusive results. However, five days after L-PRF placement, the subcutaneous tissues were adhering to the deep planes in both wounds. Fifteen days after L-PRF treatment, a complete wound healing was observed which allowed initiation of postoperative radiotherapy., Clinical Discussion: This case report questions the potential of L-PRF for patients with a pN0 status, not only in superficial wounds, but also in deep wound healing. However, the use of L-PRF for patients with a pN1 status is not recommended, given the possible presence of tumour cells in the tissues, and the activation of these tumour cells by the growth factors present in L-PRF., Conclusion: This report supports the idea that L-PRF can contribute to deep soft tissue healing for patients with a pN0 status due to its positive clinical healing effects., Competing Interests: Declaration of competing interest The authors declare there are no conflicts of interest., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2023
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