Your search keyword '"S Delprat"' showing total 10 results

1. Invited Article: Ultra-broadband terahertz coherent detection via a silicon nitride-based deep sub-wavelength metallic slit

Author

A. Tomasino, R. Piccoli, Y. Jestin, S. Delprat, M. Chaker, M. Peccianti, M. Clerici, A. Busacca, L. Razzari, and R. Morandotti

Subjects

Applied optics. Photonics, TA1501-1820

Abstract

We present a novel class of CMOS-compatible devices aimed to perform the solid-state-biased coherent detection of ultrashort terahertz pulses, i.e., featuring a gap-free bandwidth at least two decades-wide. Such a structure relies on a 1-µm-wide slit aperture located between two parallel aluminum pads, embedded in a 1-µm-thick layer of silicon nitride, and deposited on a quartz substrate. We show that this device can detect ultra-broadband terahertz pulses by employing unprecedented low optical probe energies of only a few tens of nanojoules. This is due to the more than one order of magnitude higher nonlinear coefficient of silicon nitride with respect to silica, the nonlinear material employed in the previous generations. In addition, due to the reduced distance between the aluminum pads, very high static electric fields can be generated within the slit by applying extremely low external bias voltages (in the order of few tens of volts), which strongly enhance the dynamic range of the detected THz waveforms. These results pave the way to the integration of solid-state ultra-broadband detection in compact and miniaturized terahertz systems fed by high repetition-rate laser oscillators and low-noise, low-voltage generators.

Published

2018

2. Spintronics with Small Molecules

Author

Clément Barraud, Marta Galbiati, Frédéric Petroff, S. Delprat, Sergio Tatay, Richard Mattana, and Pierre Seneor

Subjects

Spintronics, Nanotechnology, Electronic mail

Abstract

Organic/molecular spintronics is a rising research field at the frontier between spintronics and chemistry. Beyond, plasticity and low cost, organic materials were first seen as very promising for spintronics devices due to their expected long spin lifetime. While originally overlooked it was later unveiled that opportunities arising from chemistry could also lead to develop new spintronics functionalities.

Published

2016

3. Fabrication of high aspect ratio tungsten nanostructures on ultrathin c-Si membranes for extreme UV applications.

Author

F Delachat, B Le Drogoff, C Constancias, S Delprat, E Gautier, M Chaker, and J Margot

Subjects

TUNGSTEN, NANOSTRUCTURES, METAL fabrication, SILICON, ULTRAVIOLET lithography

Abstract

In this work, we demonstrate a full process for fabricating high aspect ratio diffraction optics for extreme ultraviolet lithography. The transmissive optics consists in nanometer scale tungsten patterns standing on flat, ultrathin (100 nm) and highly transparent (>85% at 13.5 nm) silicon membranes (diameter of 1 mm). These tungsten patterns were achieved using an innovative pseudo-Bosch etching process based on an inductively coupled plasma ignited in a mixture of SF6 and C4F8. Circular ultra-thin Si membranes were fabricated through a state-of-the-art method using direct-bonding with thermal difference. The silicon membranes were sputter-coated with a few hundred nanometers (100–300 nm) of stress-controlled tungsten and a very thin layer of chromium. Nanoscale features were written in a thin resist layer by electron beam lithography and transferred onto tungsten by plasma etching of both the chromium hard mask and the tungsten layer. This etching process results in highly anisotropic tungsten features at room temperature. The homogeneity and the aspect ratio of the advanced pattern transfer on the membranes were characterized with scanning electron microscopy after focus ion beam milling. An aspect ratio of about 6 for 35 nm size pattern is successfully obtained on a 1 mm diameter 100 nm thick Si membrane. The whole fabrication process is fully compatible with standard industrial semiconductor technology. [ABSTRACT FROM AUTHOR]

Published

2016

4. Fabrication of a silicon-based CaxBa1?xNb2O6 ridge waveguide for electro-optical phase modulation.

Author

I Stateikina, E Mortazy, S Delprat, K Wu and, and M Chaker

Subjects

WAVEGUIDES, SILICON, ELECTROOPTICS, PHASE modulation, CRYSTALS, WAVELENGTHS, PULSED laser deposition, SILICA

Abstract

The CaxBa1[?]xNb2O6 (CBN-x) optical ridge waveguides for electro-optic phase modulation were fabricated on a silicon substrate. The method of waveguide fabrication presented here resulted in a device with a high-quality guiding layer, i.e. with better crystallinity over 140 nm grains of preferred (0 0 1) orientation, high transmission exceeding 94% for 1550 nm wavelength and improved electro-optic coefficient, over 15 pm V[?]1. Pulsed laser deposition of CBN film on a pre-patterned 10 um thick layer of silicon dioxide allows the spatial separation of the guiding CBN layer thus enabling optical signal coupling. A contact layer is introduced on both sides of the waveguides in order to enable electro-optic response testing. [ABSTRACT FROM AUTHOR]

Published

2010

5. Spontaneous growth of 2D coordination polymers on functionalized ferromagnetic surfaces.

Author

Mattera M, Rubio-Giménez V, Delprat S, Mattana R, Seneor P, Tatay S, Forment-Aliaga A, and Coronado E

Abstract

The spontaneous growth of lamellar metal-alkanethiolates (LMAs) on reactive ferromagnetic surfaces as a result of surface oxidation has been observed. When alkanethiol self-assembled monolayers (SAMs) grown under an inert atmosphere over cobalt or permalloy (Ni 80 Fe 20 ) are exposed to air, oxygen diffuses through the molecular layer. This induces an oxidation of metal atoms at the metal surface and a release of the resulting metal cations that migrate coordinated by the alkanethiol molecules to form lamellar structures over the SAMs. This process has been imaged in real-time, under ambient conditions, by means of different microscopy techniques. The influence of the alkyl chain length, the nature of the ferromagnet, the temperature and the atmospheric moisture on the number, area and height of the resulting features has been systematically evaluated. Remarkably, the possibility to follow the migration in real-time makes it a promising model system for the study of surface/molecule interface processes. Most importantly, the composition and crystallinity of these LMAs have been studied, evidencing that real 2D coordination polymers are formed on the surface. Hence, one could envision this strategy as a new method for the assembly of more complex low-dimensional (2D) magnetic materials based on coordination polymers.

Published

2018

6. Engineering the magnetic coupling and anisotropy at the molecule-magnetic surface interface in molecular spintronic devices.

Author

Campbell VE, Tonelli M, Cimatti I, Moussy JB, Tortech L, Dappe YJ, Rivière E, Guillot R, Delprat S, Mattana R, Seneor P, Ohresser P, Choueikani F, Otero E, Koprowiak F, Chilkuri VG, Suaud N, Guihéry N, Galtayries A, Miserque F, Arrio MA, Sainctavit P, and Mallah T

Abstract

A challenge in molecular spintronics is to control the magnetic coupling between magnetic molecules and magnetic electrodes to build efficient devices. Here we show that the nature of the magnetic ion of anchored metal complexes highly impacts the exchange coupling of the molecules with magnetic substrates. Surface anchoring alters the magnetic anisotropy of the cobalt(II)-containing complex (Co(Pyipa) 2 ), and results in blocking of its magnetization due to the presence of a magnetic hysteresis loop. In contrast, no hysteresis loop is observed in the isostructural nickel(II)-containing complex (Ni(Pyipa) 2 ). Through XMCD experiments and theoretical calculations we find that Co(Pyipa) 2 is strongly ferromagnetically coupled to the surface, while Ni(Pyipa) 2 is either not coupled or weakly antiferromagnetically coupled to the substrate. These results highlight the importance of the synergistic effect that the electronic structure of a metal ion and the organic ligands has on the exchange interaction and anisotropy occurring at the molecule-electrode interface.

Published

2016

7. Self-assembled monolayers based spintronics: from ferromagnetic surface functionalization to spin-dependent transport.

Author

Tatay S, Galbiati M, Delprat S, Barraud C, Bouzehouane K, Collin S, Deranlot C, Jacquet E, Seneor P, Mattana R, and Petroff F

Subjects

Electrons, Lanthanum chemistry, Magnetic Phenomena, Manganese Compounds chemistry, Oxides chemistry, Phosphorous Acids chemistry, Strontium chemistry, Surface Properties, Electrical Equipment and Supplies, Magnets chemistry

Abstract

Chemically functionalized surfaces are studied for a wide range of applications going from medicine to electronics. Whereas non-magnetic surfaces have been widely studied, functionalization of magnetic surfaces is much less common and has almost never been used for spintronics applications. In this article we present the functionalization of La2/3Sr1/3MnO3, a ferromagnetic oxide, with self-assembled monolayers for spintronics. La2/3Sr1/3MnO3 is the prototypical half-metallic manganite used in spintronics studies. First, we show that La2/3Sr1/3MnO3 can be functionalized by alkylphosphonic acid molecules. We then emphasize the use of these functionalized surfaces in spintronics devices such as magnetic tunnel junctions fabricated using a nano-indentation based lithography technique. The observed exponential increase of tunnel resistance as a function of alkyl chain length is a direct proof of the successful connection of molecules to ferromagnetic electrodes. For all alkyl chains studied we obtain stable and robust tunnel magnetoresistance, with effects ranging from a few tens to 10 000%. These results show that functionalized electrodes can be integrated in spintronics devices and open the door to a molecular engineering of spintronics.

Published

2016

8. Fabrication of high aspect ratio tungsten nanostructures on ultrathin c-Si membranes for extreme UV applications.

Author

Delachat F, Le Drogoff B, Constancias C, Delprat S, Gautier E, Chaker M, and Margot J

Abstract

In this work, we demonstrate a full process for fabricating high aspect ratio diffraction optics for extreme ultraviolet lithography. The transmissive optics consists in nanometer scale tungsten patterns standing on flat, ultrathin (100 nm) and highly transparent (>85% at 13.5 nm) silicon membranes (diameter of 1 mm). These tungsten patterns were achieved using an innovative pseudo-Bosch etching process based on an inductively coupled plasma ignited in a mixture of SF6 and C4F8. Circular ultra-thin Si membranes were fabricated through a state-of-the-art method using direct-bonding with thermal difference. The silicon membranes were sputter-coated with a few hundred nanometers (100-300 nm) of stress-controlled tungsten and a very thin layer of chromium. Nanoscale features were written in a thin resist layer by electron beam lithography and transferred onto tungsten by plasma etching of both the chromium hard mask and the tungsten layer. This etching process results in highly anisotropic tungsten features at room temperature. The homogeneity and the aspect ratio of the advanced pattern transfer on the membranes were characterized with scanning electron microscopy after focus ion beam milling. An aspect ratio of about 6 for 35 nm size pattern is successfully obtained on a 1 mm diameter 100 nm thick Si membrane. The whole fabrication process is fully compatible with standard industrial semiconductor technology.

Published

2016

9. Second harmonic generation in AlGaAs photonic wires using low power continuous wave light.

Author

Duchesne D, Rutkowska KA, Volatier M, Légaré F, Delprat S, Chaker M, Modotto D, Locatelli A, De Angelis C, Sorel M, Christodoulides DN, Salamo G, Arès R, Aimez V, and Morandotti R

Subjects

Lasers, Dye, Light, Manufactured Materials, Models, Theoretical, Optics and Photonics methods, Semiconductors, Aluminum Compounds chemistry, Arsenicals chemistry, Gallium chemistry, Optical Devices, Optics and Photonics instrumentation

Abstract

We report modal phase matched (MPM) second harmonic generation (SHG) in high-index contrast AlGaAs sub-micron ridge waveguides, by way of sub-mW continuous wave powers at telecommunication wavelengths. We achieve an experimental normalized conversion efficiency of ~14%/W/cm2, obtained through a careful sub-wavelength design supporting both the phase matching requirement and a significant overlap efficiency. Furthermore, the weak anomalous dispersion, robust fabrication technology and possible geometrical and thermal tuning of the device functionality enable a fully integrated multi-functional chip for several critical areas in telecommunications, including wavelength (time) division multiplexing and quantum entanglement.

Published

2011

10. Pharmacokinetics of metaflumizone in the plasma and hair of cats following topical application.

Author

DeLay RL, Lacoste E, Delprat S, and Blond-Riou F

Subjects

Animals, Female, Insecticides blood, Insecticides metabolism, Male, Reproducibility of Results, Semicarbazones blood, Semicarbazones metabolism, Time Factors, Administration, Topical, Cats metabolism, Hair metabolism, Insecticides pharmacokinetics, Plasma metabolism, Semicarbazones pharmacokinetics

Abstract

Controlled laboratory studies have shown that a novel spot-on formulation containing 20% (w/v) metaflumizone (ProMeris for Cats, Fort Dodge Animal Health, Overland Park, KS) is effective for the treatment and control of fleas on cats. Two studies were conducted to determine the distribution of metaflumizone in the plasma and hair of cats following treatment at the minimum recommended dose of 40mg/kg. Six purpose-bred cats, three males and three females, were used in each study. Plasma or hair samples were collected from each cat just prior to dosing and periodically through 56 days after treatment. Samples were analyzed by HPLC methods validated for the determination of metaflumizone. Metaflumizone concentrations in plasma were below the method limit of quantification (<50ng/ml) in all samples but one, and were frequently not detectable (<1.1ng/ml). Plasma collected 3 days post-treatment from one cat had a metaflumizone concentration of 57.8ng/ml. The frequency of measurable levels of metaflumizone in the plasma was too low to allow the calculation of pharmacokinetic parameters. Analysis of hair samples indicated that metaflumizone was widely distributed in the hair coat of the cat within 1 day after administration, reaching maximum concentrations within 1 or 2 days post-treatment. Low but quantifiable levels were still present at the end of the 56-day study. Data from the present studies indicate that the ectoparasitic activity is due to exposure of the parasites to metaflumizone on the surface of the host (skin and hair), not to exposure via the circulatory system of the host.

Published

2007