Search results for "circuit"

showing 10 items of 936 documents

Volume integrated phase modulator based on funnel waveguides for reconfigurable miniaturized optical circuits.

2015

We demonstrate the integration of a miniaturized 30(x) μm × 30(y) μm × 2.7(z) mm electro-optic phase modulator operating in the near-IR (λ = 980 nm) based on the electro-activation of a funnel waveguide inside a paraelectric sample of photorefractive potassium lithium tantalate niobate. The modulator forms a basic tassel in the realization of miniaturized reconfigurable optical circuits embedded in a single solid-state three-dimensional chip.

Materials scienceKerr effectoptoelettronicaPhase (waves)Modulatorlaw.inventionchemistry.chemical_compoundOpticslawelettro-otticaElectronic circuitbusiness.industryottica integrataPhotorefractive effectottica integrata; elettro-ottica; optoelettronicaChipPhotorefractive opticAtomic and Molecular Physics and OpticsFIS/01 - FISICA SPERIMENTALEchemistryPhaseLithium tantalatebusinessInfraredWaveguidePhase modulationOptics letters
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SIMULATION OF THERMAL EFFECTS IN OPTOELECTRONIC DEVICES USING COUPLED ENERGY-TRANSPORT AND CIRCUIT MODELS

2008

A coupled model with optoelectronic semiconductor devices in electric circuits is proposed. The circuit is modeled by differential-algebraic equations derived from modified nodal analysis. The transport of charge carriers in the semiconductor devices (laser diode and photo diode) is described by the energy-transport equations for the electron density and temperature, the drift-diffusion equations for the hole density, and the Poisson equation for the electric potential. The generation of photons in the laser diode is modeled by spontaneous and stimulated recombination terms appearing in the transport equations. The devices are coupled to the circuit by the semiconductor current entering the…

Materials scienceLaser diodebusiness.industryApplied MathematicsPhysics::OpticsSemiconductor deviceBackward diodeModified nodal analysislaw.inventionLoad linelawLaser diode rate equationsModeling and SimulationOptoelectronicsbusinessElectronic circuitVoltageMathematical Models and Methods in Applied Sciences
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Design approach for high efficiency NFC systems with magnetic shielding materials

2020

The performance of a Near Field Communication (NFC) antenna may be diminished when it is placed close to any conductive surface such as a metallic case or a battery. This degradation is caused due to the stray magnetic field created by the eddy currents induced on the surface, which is opposite to the intended field generated by the NFC antenna. One of the first solutions that come to mind to designers when facing this problem is the use of high permeability magnetic shielding based on sintered ferrite sheets. This is a good approach but something that is not generally taken into account is that these materials introduce an additional inductance to the NFC antenna. If the permeability of th…

Materials scienceLoop antennaAcousticsSmith chart020206 networking & telecommunications02 engineering and technology021001 nanoscience & nanotechnologyMagnetic fieldlaw.inventionInductancelawElectromagnetic shielding0202 electrical engineering electronic engineering information engineeringEddy currentEquivalent circuit0210 nano-technologyRelative permeability2020 International Symposium on Electromagnetic Compatibility - EMC EUROPE
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Switchable surface structured hydrogel coatings

2017

Switchable surface structures based on hydrogels are an emerging field in material science, microfluidics, soft robotics and anti-fouling. Here, we describe a novel method that uses a photo-cross-linkable terpolymer to create a hydrogel coating with a switchable surface structure. The terpolymer is based on poly(N-isopropylacrylamide) (PNIPAm) and it is shown that simple coating technologies like slit die coating can be used under ambient conditions. It is also shown that the swelling ratio of the coating is controlled by the energy dose of ultraviolet (UV) light. Simple and complex surface structures were created using respectively single or multiple UV illumination steps through masks and…

Materials scienceMicrofluidicsSoft roboticsNanotechnology02 engineering and technologyGeneral Chemistryengineering.material010402 general chemistry021001 nanoscience & nanotechnologyCondensed Matter Physicsmedicine.disease_cause01 natural sciencesDie (integrated circuit)0104 chemical sciencesCoatingSelf-healing hydrogelsengineeringCopolymermedicine0210 nano-technologyScience technology and societyUltravioletSoft Matter
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Microwave characterization and modeling of packaged HEMTs by a direct extraction procedure at cryogenic temperatures

2004

In the present work we employ a direct extraction procedure to determine small signal equivalent circuit of microwave GaAs FETs by means of scattering (S-) parameter measurements down to cryogenic temperatures. The direct extraction procedure was tested on packaged AlGaAs/InGaAs HEMTs and good agreement between the simulated and measured S-parameters was obtained at different bias and temperature conditions. We employed a properly designed cryogenic set-up operating in our laboratory that allows to perform DC and RF characterization down to 30 K.

Materials scienceMicrowave Characterization Small Signal Modeling Low-Noise Devices Cryogenic Temperatures Cold FET.Scatteringbusiness.industryExtraction (chemistry)CryogenicsCondensed Matter::Mesoscopic Systems and Quantum Hall EffectSignalGallium arsenidechemistry.chemical_compoundchemistryScattering parametersEquivalent circuitOptoelectronicsbusinessMicrowave
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Scalable manufacturing of fibrous nanocomposites for multifunctional liquid sensing

2021

This research is supported by the Advanced Manufacturing Program (No. 1927623) from the National Science Foundation and by the McIntire-Stennis Cooperative Forestry Research Program (No. 1020630) from the USDA National Institute of Food and Agriculture. The authors also thank WestRock Paper Company for donated the wood pulp used in this research. Open access funding is enabled and organized by CERN. Cellulose-based paper electronics is an attractive technology to meet the growing demands for naturally abundant, biocompatible, biodegradable, flexible, inexpensive, lightweight and highly miniaturizable sensory materials. The price reduction of industrial carbon nanotube (CNT) grades offers op…

Materials scienceNanocompositeOrders of magnitude (temperature)Biomedical EngineeringPharmaceutical ScienceNanoparticleForming processesBioengineeringNanotechnologyLiquid SensingCarbon nanotubelaw.inventionchemistry.chemical_compoundCellulose NanofibrilschemistrylawLeak DetectionEquivalent circuitCarbon NanotubesGeneral Materials ScienceElectronicsDetectors and Experimental TechniquesCellulosePaper-Based ElectronicsBiotechnologyNano Today
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Surface plasmon subwavelength optics.

2003

International audience; Surface plasmons are waves that propagate along the surface of a conductor. By altering the structure of a metal's surface, the properties of surface plasmons- in particular their interaction with light-can be tailored, which offers the potential for developing new types of photonic device. This could lead to miniaturized photonic circuits with length scales that are much smaller than those currently achieved. Surface plasmons are being explored for their potential in subwavelength optics, data storage, light generation, microscopy and bio-photonics.

Materials scienceNanophotonicsPhysics::OpticsExtraordinary optical transmission02 engineering and technologyFILMS01 natural sciences010309 opticsOptics[ PHYS.COND.CM-MSQHE ] Physics [physics]/Condensed Matter [cond-mat]/Mesoscopic Systems and Quantum Hall Effect [cond-mat.mes-hall]0103 physical sciences2ND-HARMONIC GENERATIONPlasmonic lensLOCAL DETECTION[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[PHYS.COND.CM-MSQHE]Physics [physics]/Condensed Matter [cond-mat]/Mesoscopic Systems and Quantum Hall Effect [cond-mat.mes-hall]Photonic crystalHOLE ARRAYSMultidisciplinarybusiness.industrySurface plasmonENERGY GAPSPlasmonic CircuitryMETALLIC NANOPARTICLES021001 nanoscience & nanotechnologySurface plasmon polaritonLIGHT TRANSMISSIONGOLD NANOPARTICLES[SPI.OPTI]Engineering Sciences [physics]/Optics / PhotonicOptoelectronics[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.OPTI ] Engineering Sciences [physics]/Optics / PhotonicENHANCED RAMAN-SCATTERINGPHOTONIC BAND-GAP0210 nano-technologybusinessLocalized surface plasmonNature
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Tuning of an Optical Dimer Nanoantenna by Electrically Controlling Its Load Impedance

2009

International audience; Optical antennas are elementary units used to direct optical radiation to the nanoscale. Here we demonstrate an active control over individual antenna performances by an external electrical trigger. We find that by an in-plane command of an anisotropic load medium, the electromagnetic interaction between individual elements constituting an optical antenna can be controlled, resulting in a strong polarization and tuning response. An active command of the antenna is a prerequisite for directing light wave through the utilization of such a device.

Materials scienceNanostructureBioengineering02 engineering and technologyMETAL NANOPARTICLESLIQUID-CRYSTALS01 natural sciencesPLASMON RESONANCES010309 opticsOptics[ PHYS.COND.CM-MSQHE ] Physics [physics]/Condensed Matter [cond-mat]/Mesoscopic Systems and Quantum Hall Effect [cond-mat.mes-hall]0103 physical sciencesGeneral Materials Science[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsANTENNAAnisotropyNanoscopic scale[PHYS.COND.CM-MSQHE]Physics [physics]/Condensed Matter [cond-mat]/Mesoscopic Systems and Quantum Hall Effect [cond-mat.mes-hall]Computer Science::Information Theorybusiness.industryPAIRSMechanical EngineeringGeneral ChemistryInput impedance021001 nanoscience & nanotechnologyCondensed Matter PhysicsPolarization (waves)LIGHT-SCATTERINGFREEDERICKSZ TRANSITIONNanoelectronics[SPI.OPTI]Engineering Sciences [physics]/Optics / PhotonicOptical radiation[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.OPTI ] Engineering Sciences [physics]/Optics / PhotonicAntenna (radio)NANOCIRCUIT0210 nano-technologybusinessEMISSION
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Electron-induced limitation of surface plasmon propagation in silver nanowires

2013

Plasmonic circuitry is considered as a promising solution-effective technology for miniaturizing and integrating the next generation of optical nano-devices. A key element is the shared metal network between electrical and optical information enabling an efficient hetero-integration of an electronic control layer and a plasmonic data link. Here, we investigate to what extend surface plasmons and current-carrying electrons interfere in such a shared circuitry. By synchronously recording surface plasmon propagation and electrical output characteristics of single chemically-synthesized silver nanowires we determine the limiting factors hindering the co-propagation of electrical current and sur…

Materials scienceNanostructureFOS: Physical sciencesPhysics::OpticsBioengineering02 engineering and technologyElectron01 natural sciences[ CHIM ] Chemical SciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesPhysics::Atomic and Molecular Clusters[CHIM]Chemical SciencesGeneral Materials ScienceElectrical and Electronic Engineering010306 general physicsNanoscopic scalePlasmonElectronic circuitCondensed Matter - Mesoscale and Nanoscale Physicsbusiness.industryMechanical EngineeringSurface plasmonPlasmonic CircuitryGeneral Chemistry021001 nanoscience & nanotechnologyMechanics of MaterialsOptoelectronicsElectric current0210 nano-technologybusinessOptics (physics.optics)Physics - Optics
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Nanorings and rods interconnected by self-assembly mimicking an artificial network of neurons

2013

[EN] Molecular electronics based on structures ordered as neural networks emerges as the next evolutionary milestone in the construction of nanodevices with unprecedented applications. However, the straightforward formation of geometrically defined and interconnected nanostructures is crucial for the production of electronic circuitry nanoequivalents. Here we report on the molecularly fine-tuned self-assembly of tetrakis-Schiff base compounds into nanosized rings interconnected by unusually large nanorods providing a set of connections that mimic a biological network of neurons. The networks are produced through self-assembly resulting from the molecular conformation and noncovalent intermo…

Materials scienceNanostructurePolymersSurface PropertiesEvaporationGeneral Physics and AstronomyNanoparticleNanotechnologyElectronsHardware_PERFORMANCEANDRELIABILITY010402 general chemistry01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyRodCircuitsCIENCIA DE LOS MATERIALES E INGENIERIA METALURGICAHardware_INTEGRATEDCIRCUITSAnimalsHumansNanotechnologyMolecular circuitsRingsSchiff BasesElectronic circuitNeuronsMultidisciplinaryNanotubes010405 organic chemistryFlowElectric ConductivityArchitecturesGeneral ChemistryEvaporation (deposition)0104 chemical sciencesNanostructuresNanoparticlesSelf-assemblyNeural Networks ComputerPrinciplesHardware_LOGICDESIGNModel
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