Search results for "Note"

showing 10 items of 10709 documents

Dispositif microtechnique à capteur d'image.

2011

L'invention vise un dispositif microtechnique. Le dispositif microtechnique comprend une micro-pince comprenant un support, avec un actionneur est un équipage mobile montés sur ledit support, ainsi qu'un capteur d'image, l'équipage mobile comprenant une embase avec une tête, l'embase étant déplaçable en translation par rapport au support et latdite têt étant déplaçable en rotation par rapport à l'embase, et dans lequel ledit capteur d'image est disposé sur ladite tête de l'équipage mobile en regard dudit actionneur.

[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics
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A CMOS Image Sensor Design for Speed Determination of Fast Moving Luminous Objects

2003

International audience

[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsComputingMilieux_MISCELLANEOUS
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Acoustic Topological Circuitry in Square and Rectangular Phononic Crystals

2021

International audience; We systematically engineer a series of square and rectangular phononic crystals to create experimental realizations of complex topological phononic circuits. The exotic topological transport observed is wholly reliant upon the underlying structure which must belong to either a square or rectangular lattice system and not to any hexagonal-based structure. The phononic system chosen consists of a periodic array of square steel bars which partitions acoustic waves in water over a broadband range of frequencies (∼0.5MHz). An ultrasonic transducer launches an acoustic pulse which propagates along a domain wall, before encountering a nodal point, from which the acoustic si…

[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[PHYS.MPHY]Physics [physics]/Mathematical Physics [math-ph]Crystal systemFOS: Physical sciencesGeneral Physics and Astronomy02 engineering and technology[SPI.MAT] Engineering Sciences [physics]/MaterialsTopology01 natural sciencesSignal09 EngineeringSquare (algebra)Physics AppliedWAVE-GUIDE[SPI.MAT]Engineering Sciences [physics]/MaterialsDESIGNcond-mat.mes-hallMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciences[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics010306 general physicsElectronic circuit[SPI.ACOU]Engineering Sciences [physics]/Acoustics [physics.class-ph]Physics[SPI.ACOU] Engineering Sciences [physics]/Acoustics [physics.class-ph]BENDS[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]Science & Technology02 Physical SciencesCondensed Matter - Mesoscale and Nanoscale PhysicsPhysicsAcoustic waveEDGE STATES021001 nanoscience & nanotechnology[PHYS.MECA.ACOU]Physics [physics]/Mechanics [physics]/Acoustics [physics.class-ph]Pulse (physics)Cardinal pointSPINPhysical Sciences2-DIMENSIONAL PHOTONIC CRYSTALHIGH TRANSMISSIONUltrasonic sensor0210 nano-technologyPhysical Review Applied
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Surface plasmon interference excited by tightly focused laser beams

2007

International audience; We show that interfering surface plasmon polaritons can be excited with a focused laser beam at normal incidence to a plane metal film. No protrusions or holes are needed in this excitation scheme. Depending on the axial position of the focus, the intensity distribution on the metal surface is either dominated by interferences between counterpropagating plasmons or by a two-lobe pattern characteristic of localized surface plasmon excitation. Our experiments can be accurately explained by use of the angular spectrum representation and provide a simple means for locally exciting standing surface plasmon polaritons.

[SPI.OPTI] Engineering Sciences [physics]/Optics / Photonic[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsNanophotonicsPhysics::Optics02 engineering and technology01 natural scienceslaw.invention010309 opticsOpticslaw[ PHYS.COND.CM-MSQHE ] Physics [physics]/Condensed Matter [cond-mat]/Mesoscopic Systems and Quantum Hall Effect [cond-mat.mes-hall]0103 physical sciencesSurface plasmon resonance[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsPlasmon[PHYS.COND.CM-MSQHE]Physics [physics]/Condensed Matter [cond-mat]/Mesoscopic Systems and Quantum Hall Effect [cond-mat.mes-hall]Physicsbusiness.industrySurface plasmon021001 nanoscience & nanotechnologyLaserSurface plasmon polaritonAtomic and Molecular Physics and Optics[PHYS.COND.CM-MSQHE] Physics [physics]/Condensed Matter [cond-mat]/Mesoscopic Systems and Quantum Hall Effect [cond-mat.mes-hall]Angular spectrum method[SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.OPTI ] Engineering Sciences [physics]/Optics / Photonic0210 nano-technologybusinessLocalized surface plasmon
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Cavity Resonator Integrated Guided mode resonance Filter : Spectral & Modal Reflector

2015

International audience; CRIGF is a new generation of narrowband filter. It consists of subwavelength gratings nearby or upon a waveguide. At the center, a small GMRF (Guided Mode Resonance Filter) or GC (Grating Coupler) coupled radiated & guided mode, then, DBR (Distributed Bragg Reflector) at each side localise mode inside a horizontal Fabry-Pérot cavity. Two PS (Phase sections) are use to fine tune the Fabry-Pérot modes with the grating coupler.

[SPI.OPTI] Engineering Sciences [physics]/Optics / Photonic[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[SPI.OPTI]Engineering Sciences [physics]/Optics / PhotonicPhysics::OpticsGRIGF[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics
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Gas sensors arrays (electronic noses) : a study about the speed/accuracy ratio

2000

Abstract New Fingerprint Mass Spectra (FMS) systems claim for a higher precision, a reduced analysis time, and a lower drift, compared with Gas Sensors Arrays ‘Electronic Noses’. We demonstrated in this study that metal oxide gas sensors may have highly improved performances for both accuracy and run time, when used in optimum conditions. The different noise components were quantified referring to popular words (equivalent of ethanol concentration) using the transfer function of the sensor. It was pointed out that sample surrounding greatly affects the noise level, and that the signal-to-noise ratio may be dramatically increased, reducing the distortion generally assessed between sensor and…

[SPI.OTHER]Engineering Sciences [physics]/OtherAnalytical chemistry02 engineering and technology010402 general chemistry01 natural sciencesTransfer functionNoise (electronics)Standard deviationDistortionMaterials ChemistryRange (statistics)Electrical and Electronic EngineeringInstrumentationThroughput (business)ComputingMilieux_MISCELLANEOUSDetection limitChemistry[SPI.OTHER] Engineering Sciences [physics]/OtherMetals and Alloys021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsPRECISIONMass spectrum0210 nano-technology
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Electronic noses : specify or disappear

2000

Abstract When the quality control is achieved by using GC or GC/MS, the apparatus must comply with the applicable norms, but what about “electronic noses”? End users demand for formal specifications for selectivity, sensitivity, repeatability and sample throughput. The behavioural modelling of electronic olfactometers may provide specifications for these required parameters. This will allow both the measure itself, and evaluate the influence of the experimental errors on the sample classification. Users may expect to find a methodology allowing the performances of systems to be checked before any final decision and during routine use. We have demonstrated that the system sensitivity and log…

[SPI.OTHER]Engineering Sciences [physics]/OtherComputer sciencemedia_common.quotation_subjectAnalytical chemistrySample (statistics)02 engineering and technology01 natural sciencesFormal specificationMaterials ChemistryQuality (business)Sensitivity (control systems)Electrical and Electronic EngineeringInstrumentationThroughput (business)ComputingMilieux_MISCELLANEOUSmedia_commonMeasure (data warehouse)[SPI.OTHER] Engineering Sciences [physics]/Other010401 analytical chemistryMetals and AlloysRepeatability021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsReliability engineeringCoupling (computer programming)0210 nano-technology
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Combustion wave structure during the MoSi2 synthesis by Mechanically-Activated Self-propagating High-temperature Synthesis (MASHS): In situ time-reso…

2006

Abstract In situ synchrotron time-resolved X-ray diffraction experiments coupled with an infrared imaging camera have been used to reveal the combustion wave structure during the production of MoSi2 by Mechanically Activated Self-propagating High-temperature Synthesis (MASHS). The fast combustion front exhibits a form described as an ‘equilibrium structure’ where the chemical reaction is the sole major driving force. In the MASHS process, oxide-free interfaces between Mo and Si nanocrystallites enhance the reaction Mo+2Si→MoSi2. Exhaustive time-resolved investigations show a possible solid-state process in the first second of the reaction within the combustion front. If preheating is added,…

[SPI.OTHER]Engineering Sciences [physics]/OtherDiffractionMaterials science[ SPI.OTHER ] Engineering Sciences [physics]/OtherSelf-propagating high-temperature synthesis[ PHYS.COND.CM-MS ] Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]02 engineering and technologyCombustion7. Clean energy01 natural sciencesChemical reactionlaw.inventionmechanical allowing and millingReaction ratelaw0103 physical sciencesThermalMaterials Chemistryphase transformation (crystallographic aspects kinetics and mechanismsBall mill010302 applied physicsMechanical Engineeringreaction synthesisMetals and Alloys[CHIM.MATE]Chemical Sciences/Material chemistryGeneral Chemistry021001 nanoscience & nanotechnologyvarious[PHYS.COND.CM-MS] Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]SynchrotronsilicidesCrystallographyChemical engineeringMechanics of Materials[ CHIM.MATE ] Chemical Sciences/Material chemistry[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]0210 nano-technology
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P-Type Doping of 4H-SiC for Integrated Bipolar and Unipolar Devices

2015

International audience; P-type 4H-SiC layers formed by ion implantation need high temperature processes, which generate surface roughness, losing and incomplete activation of dopants. Due to dopant redistribution and channeling effect, it is difficult to predict the depth of the formed junctions. Vapor-Liquid-Solid (VLS) selective epitaxy is an alternative method to obtain locally highly doped p-type layers in the 1020 cm-3 range or more. The depth of this p-type layers or regions is accurately controlled by the initial Reactive-Ion-Etching (RIE) of the SiC. Lateral Junction Field Effect Transistor (JFET) devices are fabricated by integrating p-type layers created by Al ion implantation or …

[SPI.OTHER]Engineering Sciences [physics]/OtherJFETVLS epitaxial growthRIE[ SPI.OTHER ] Engineering Sciences [physics]/Other[SPI.OTHER] Engineering Sciences [physics]/Other[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronicsion implantation[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics
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Influence of interfering gases on a carbon monoxide differential sensor based on SAW devices functionalized with cobalt and copper corroles

2021

International audience; <!--[if gte mso 9]&gt<xml&gt <w:WordDocument&gt <w:View&gtNormal</w:View&gt <w:Zoom&gt0</w:Zoom&gt <w:TrackMoves/&gt <w:TrackFormatting/&gt <w:HyphenationZone&gt21</w:HyphenationZone&gt <w:PunctuationKerning/&gt <w:ValidateAgainstSchemas/&gt <w:SaveIfXMLInvalid&gtfalse</w:SaveIfXMLInvalid&gt <w:IgnoreMixedContent&gtfalse</w:IgnoreMixedContent&gt <w:AlwaysShowPlaceholderText&gtfalse</w:AlwaysShowPlaceholderText&gt <w:DoNotPromoteQF/&gt <w:LidThemeOther&gtFR</w:LidThemeOther&gt <w:Compatibility&gt <w:BreakWrappedTables/&gt <w:SnapToGridInCell/&gt <w:WrapTextWithPunct/&gt <w:UseAsianBreakRules/&gt <w:DontGrowAutofit/&gt <w:SplitPgBreakAndParaMark/&gt <w:EnableOpenTypeKe…

[SPI.OTHER]Engineering Sciences [physics]/OtherMaterials sciencechemistry.chemical_element02 engineering and technology010402 general chemistry01 natural scienceschemistry.chemical_compoundIndoor air qualityMaterials ChemistryElectrical and Electronic EngineeringInstrumentationPotential impactbusiness.industry[SPI.OTHER] Engineering Sciences [physics]/OtherSurface acoustic waveMetals and AlloysHumidity021001 nanoscience & nanotechnologyCondensed Matter PhysicsCopper0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialschemistryOptoelectronics0210 nano-technologybusinessCobaltSensitivity (electronics)Carbon monoxide
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