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(474) Production(s) de l'année 2018
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Spontaneous lateral atomic recoil force close to a photonic topological material
Auteur(s): Hassani Gangaraj S. Ali, Hanson George W., Antezza M., Silveirinha Mario
(Article) Publié:
Physical Review B, vol. 97 p.201108(R) (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01792421_v1
DOI: 10.1103/PhysRevB.97.201108
WoS: 000432966100001
Exporter : BibTex | endNote
26 Citations
Résumé: We investigate the quantum recoil force acting on an excited atom close to the surface of a nonreciprocal photonic topological insulator (PTI). The main atomic emission channel is the unidirectional surface plasmon propagating at the PTI-vacuum interface, and we show that it enables a spontaneous lateral recoil force that scales at short distances as 1/d^4, where d is the atom-PTI separation. Remarkably, the sign of the recoil force is polarization and orientation independent, and it occurs in a translation-invariant homogeneous system in thermal equilibrium. Surprisingly, the recoil force persists for very small values of the gyration pseudovector, which, for a biased plasma, corresponds to very low cyclotron frequencies. The ultrastrong recoil force is rooted in the quasihyperbolic dispersion of the surface plasmons. We consider both an initially excited atom and a continuous pump scenario, the latter giving rise to a steady lateral force whose direction can be changed at will by simply varying the orientation of the biasing magnetic field. Our predictions may be tested in experiments with cold Rydberg atoms and superconducting qubits.
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Multistep building of a soft plant protein film at the air-water interface
Auteur(s): Poirier A., Banc A., Stocco A., In M., Ramos L.
(Article) Publié:
Journal Of Colloid And Interface Science, vol. 526 p.337 - 346 (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01788790_v1
PMID 29751267
DOI: 10.1016/j.jcis.2018.04.087
WoS: 000436900400034
Exporter : BibTex | endNote
20 Citations
Résumé: Gliadins are edible wheat storage proteins well known for their surface active properties. In this paper, we present experimental results on the interfacial properties of acidic solutions of gliadin studied over 5 decades of concentrations, from 0.001 to 110 g/L. Dynamic pendant drop tensiometry reveals that the surface pressure of gliadin solutions builds up in a multistep process. The series of curves of the time evolution of collected at different bulk protein concentrations C can be merged onto a single master curve when is plotted as a function of t where t is the time elapsed since the formation of the air/water interface and is a shift parameter that varies with C as a power law with an exponent 2. The existence of such time-concentration superposition, which we evidence for the first time, indicates that the same mechanisms govern the surface tension evolution at all concentrations and are accelerated by an increase of the bulk concentration. The scaling of with C is consistent with a kinetic of adsorption controlled by the diffusion of the proteins in the bulk. Moreover, we show that the proteins adsorption at the air/water interface is kinetically irreversible. Correlated evolutions of the optical and elastic properties of the interfaces, as probed by ellipsometry and surface dilatational rheology respectively, provide a consistent physical picture of the building up of the protein interfacial layer. A progressive coverage of the interface by the proteins occurs at low . This stage is followed, at higher , by conformational rearrangements of the protein film, which are identified by a strong increase of the dissipative viscoelastic properties of the film concomitantly with a peculiar evolution of its optical profile that we have rationalized. In the last stage, at even higher surface pressure, the adsorption is arrested; the optical profile is not modified while the elasticity of the interfacial layer dramatically increases with the surface pressure, presumably due to the film ageing.
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Superconducting Ga/GaSe layers grown by van der Waals epitaxy
Auteur(s): Desrat W., Moret M., Briot O., Ngo T. H., Jabakhanji B., Piot Benjamin, Gil B.
(Article) Publié:
Materials Research Express, vol. 5 p.045901 (2018)
Ref HAL: hal-01784269_v1
DOI: 10.1088/2053-1591/aab8c5
WoS: 000429835000001
Exporter : BibTex | endNote
6 Citations
Résumé: We report on the growth of GaSe films by molecular beam epitaxy on both (111)B GaAs and sapphire substrates. X-ray diffraction reveals the perfect crystallinity of GaSe with the c-axis normal to the substrate surface. The samples grown under Ga rich conditions possess an additional gallium film on top of the monochalcogenide layer. This metallic film shows two normal-to-superconducting transitions which are detected at T c ≈ 1.1 K and 6.0 K. They correspond likely to the β and α-phases of gallium in the form of bulk and droplets respectively. Our results demonstrate that van der Waals epitaxy can lead to future high quality hybrid superconductor/monochalcogenide heterostructures.
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Skyrmion morphology in ultrathin magnetic films
Auteur(s): Gross I., Akhtar M. W., Hrabec A., Sampaio J., Martinez L. J., Chouaieb S., Shields B. J., Maletinsky P., Thiaville A., Rohart S., Jacques V.
(Article) Publié:
Physical Review Materials, vol. 2 p.024406 (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01781380_v1
DOI: 10.1103/PhysRevMaterials.2.024406
WoS: WOS:000426041400004
Exporter : BibTex | endNote
19 Citations
Résumé: Nitrogen-vacancy magnetic microscopy is employed in quenching mode as a non-invasive, high resolution tool to investigate the morphology of isolated skyrmions in ultrathin magnetic films. The skyrmion size and shape are found to be strongly affected by local pinning effects and magnetic field history. Micromagnetic simulations including a static disorder, based on the physical model of grain-to-grain thickness variations, reproduce all experimental observations and reveal the key role of disorder and magnetic history in the stabilization of skyrmions in ultrathin magnetic films. This work opens the way to an in-depth understanding of skyrmion dynamics in real, disordered media.
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Keynote lecture: Fracture propagation in polymeric transient networks
Auteur(s): Ligoure C.
Conférence invité: Annual European Rheology Conference (AERC) 2018 (Sorrente, IT, 2018-04-17)
Ref HAL: hal-01779573_v1
Exporter : BibTex | endNote
Résumé: We investigate the fracture nucleation and propagation of reversible double transient networks, constituted of water solutions of entangled surfactant wormlike micelles reversibly linked by various amounts of telechelic polymers thus producing transient double
networks when the micelles are sufficiently long and entangled. Two different geometries of fracture are considered: (i) For a filament stretching geometry, we provide a state diagram that delineates the regime of fracture without necking of the filament from the regime where no fracture or break-up has been observed. We show that filaments fracture when stretched at a rate larger than the inverse of the slowest relaxation time of the networks. We quantitatively demonstrate that dissipation processes are not relevant in our experimental conditions and that, depending on the density of nodes in the networks, fracture occurs in the linear viscoelastic regime or in a nonlinear regime. In addition, analysis of the crack opening profiles indicates deviations from a parabolic shape close to the crack tip for weakly connected networks. We demonstrate a direct correlation between the amplitude of the deviation from the parabolic shape and the amount of nonlinear viscoelasticity [1].(ii) For a Hele-Shaw cell geometry based on the injection of a low viscosity fluid into the viscoelastic material confined between two plates, we show
that cracks nucleate when the sample deformation rate involved is
comparable to the inverse of the shortest relaxation time scale of the networks. For a double network, significant rearrangements of the micelles occur as a crack nucleates and propagates. We show that birefringence develops at the crack tip over a finite length, ξ, which corresponds to the length scale over which micelle alignment occurs. We find that ξ is larger for slower cracks, suggesting an increase of ductility.
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Myotube elasticity of an amyotrophic lateral sclerosis mouse model
Auteur(s): Varga B., Martin Fernandez M., Hilaire Cécile, Sánchez-Vicente Ana, Areias Julie, Salsac Céline, Cuisinier Frédéric, Raoul Cedric, Scamps Frédérique, Gergely C.
(Article) Publié:
Scientific Reports, vol. p. (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01775215_v1
DOI: 10.1038/s41598-018-24027-5
WoS: 000429785900057
Exporter : BibTex | endNote
3 Citations
Résumé: Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease that a ects the motorsystem leading to generalized paralysis and death of patients. The understanding of early pathogenic mechanisms will help to de ne early diagnostics criteria that will eventually provide basis for e cient therapeutics. Early symptoms of ALS usually include muscle weakness or sti ness. Therefore, mechanical response of di erentiated myotubes from primary cultures of mice, expressing the ALS- causing SOD1G93A mutation, was examined by atomic force microscopy. Simultaneous acquisition of topography and cell elasticity of ALS myotubes was performed by force mapping method, compared with healthy myotubes and supplemented with immuno uorescence and qRT-PCR studies. Wildtype myotubes reveal a signi cant di erence in elasticity between a narrow and a wide population, consistent with maturation occurring with higher actin expression relative to myosin together with larger myotube width. However, this is not true for SOD1G93A expressing myotubes, where a signi cant shift of thin population towards higher elastic modulus values was observed. We provide evidence that SOD1 mutant induces structural changes that occurs very early in muscle development and well before symptomatic stage of the disease. These ndings could signi cantly contribute to the understanding of the role of skeletal muscle in ALS pathogenesis.
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Dental pulp stem cells used to deliver the anticancer drug paclitaxel
Auteur(s): Salehi Hamideh, Al-Arag Siham, Middendorp Elodie, Gergely C., Cuisinier Frederic J. G., Orti Valérie
(Article) Publié:
Stem Cell Research And Therapy, vol. 9 p.103 (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01775198_v1
DOI: 10.1186/s13287-018-0831-3
WoS: 000430206400003
Exporter : BibTex | endNote
6 Citations
Résumé: Background: Understanding stem cell behavior as a delivery tool in cancer therapy is essential for evaluating their future clinical potential. Previous in-vivo studies proved the use of mesenchymal stem cells (MSCs) for local delivery of the commonest anticancer drug, paclitaxel (PTX). Dental pulp is a relatively abundant noninvasive source of MSCs. We assess dental pulp stem cells (DPSCs), for the first time, as anticancer drug carriers. Confocal Raman microscopy is a unique tool to trace drug and cell viability without labeling.Methods: Drug uptake and cell apoptosis are identified through confocal Raman microscope. We traced translocation of cytochrome c enzyme from the mitochondria, as a biomarker for apoptosis, after testing both cancer and stem cells. The viability of stem cells was checked by means of confocal Raman microscope and by cytotoxicity assays.Results: In this study, we prove that DPSCs can be loaded in vitro with the anticancerous drug without affecting their viability, which is later released in the culture medium of breast cancer cells (MCF-7 cells) in a time-dependent fashion. The induced cytotoxic damage in MCF-7 cells was observed consequently after PTX release by DPSCs. Additionally, quantitative Raman images of intracellular drug uptake in DPSCs and MCF-7 cells were obtained. Cytotoxic assays prove the DPSCs to be more resistant to PTX as compared to bone marrow-derived MSCs, provided similar conditions.Conclusions: Applications of dental stem cells for targeted treatment of cancer could be a revolution to reduce morbidity due to chemotherapy, and to increase the efficacy of systemic cancer treatment.
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