Search results for "Hertz"

showing 10 items of 177 documents

Terahertz Biomedical Imaging: From Multivariate Analysis and Detection to Material Parameter Extraction

2017

Terahertz imaging is an interesting route for biomedical analysis. In particular, cancer imaging is a subject of study for different teams [1,2]. A work is done in Bordeaux in partnership with a hospital to do terahertz analysis of breast tissue. This work is done in reflection with time domain imaging setup with fresh samples. The aim is to accurately assess tumor margins and which could in the future allow a quick validation of the precision of the surgical procedure and know if new surgery should be performed. We have presented in a previous paper [3] the use of automatic methods of image generation with different parameters [4] in order to explore the different contrasts that exist in t…

[SDV.MHEP.AHA] Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO]Multivariate statisticsMultivariate analysis[SPI.OPTI] Engineering Sciences [physics]/Optics / PhotonicTerahertz radiationComputer science[SDV.CAN]Life Sciences [q-bio]/Cancer01 natural sciences010309 optics[SDV.CAN] Life Sciences [q-bio]/CancerComponent analysis0103 physical sciencesMedical imagingElectronic engineering[SDV.MHEP.AHA]Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO]Entropy (information theory)Time domainComputingMilieux_MISCELLANEOUS[SPI.SIGNAL] Engineering Sciences [physics]/Signal and Image processingbusiness.industry0402 animal and dairy sciencePattern recognition04 agricultural and veterinary sciences040201 dairy & animal science3. Good healthFrequency domain[SPI.OPTI]Engineering Sciences [physics]/Optics / PhotonicArtificial intelligencebusiness[SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing
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Characterisation of mechanical behavior of a sub surface drilled polymer, under hertzian contact load

2013

This research concerns the understanding of the sub-surface behaviour of a component presenting controlled heterogeneities and subjected to a Hertzian type load. The purpose is to qualify the stress field in the subsurface. Practically, defects of cylindrical shape are located where the stress field is maximal in sub surface. The contact is sized to be able to observe, by photoelasticity, the stress field and to develop a numerical model to simulate the behaviour (static and dynamic) of the friction area. It is highlighted that the presence of a hole on the z axis of symmetry (x = 0) is the dominating factor. The characteristics which allow decreasing the shearing stress on the symmetry axi…

[SPI.OTHER]Engineering Sciences [physics]/OtherMEF[ SPI.OTHER ] Engineering Sciences [physics]/Other[SPI.OTHER] Engineering Sciences [physics]/Other[ MATH.MATH-GM ] Mathematics [math]/General Mathematics [math.GM][MATH.MATH-GM] Mathematics [math]/General Mathematics [math.GM]No english keyword[ PHYS.COND.CM-GEN ] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]Défauts sous surfacePolymèreContact de Hertz[MATH.MATH-GM]Mathematics [math]/General Mathematics [math.GM][PHYS.COND.CM-GEN] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other][PHYS.COND.CM-GEN]Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]PhotoélasticimétrieCalcul numériqueTraitement sous surfaciqueMéthode expérimentale
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Pre-main-sequence stars older than 8 Myr in the Eagle nebula

2013

accretion accretion discs scattering protoplanetary discs circumstellar matter Hertzsprung-Russell and colour-magnitude diagrams stars: pre-main-sequencepre-main-sequence [accretion accretion discs scattering protoplanetary discs circumstellar matter Hertzsprung-Russell and colour-magnitude diagrams stars]
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Channel Modeling and System Concepts for Future Terahertz Communications: Getting Ready for Advances Beyond 5G

2020

Future terahertz (THz) communications will utilize the frequency spectrum around 300 GHz. This technology provides a promising solution for future high-data-rate communications due to the high available bandwidth. However, the unfavorable channel characteristics are a major barrier for the realization of THz communications. To address the challenges caused by the unfavorable propagation conditions, the world?s first THz communication standard includes a channel-modeling document (CMD).

business.industryTerahertz radiationComputer scienceAutomotive EngineeringBandwidth (signal processing)0202 electrical engineering electronic engineering information engineeringElectrical engineering020206 networking & telecommunications02 engineering and technologybusinessBroadband communicationFrequency spectrum5GIEEE Vehicular Technology Magazine
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Solid-state-biased coherent detection of ultra-broadband terahertz pulses

2017

Significant progress in nonlinear and ultrafast optics has recently opened new and exciting opportunities for terahertz (THz) science and technology, which require the development of reliable THz sources, detectors, and supporting devices. In this work, we demonstrate the first solid-state technique for the coherent detection of ultra-broadband THz pulses (0.1-10 THz), relying on the electric-field-induced second-harmonic generation in a thin layer of ultraviolet fused silica. The proposed CMOS-compatible devices, which can be realized with standard microfabrication techniques, allow us to perform ultra-broadband detection with a high dynamic range by employing probe laser powers and bias v…

coherent detectionTA1501Nonlinear opticTerahertzFar infrared or terahertzFour-wave mixingUltrafast opticDevicePhysics::OpticsUltrafast laserSolid state detectorSettore ING-INF/01 - ElettronicaQC0350Optica
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Six-dimensional measurements of trains of high brightness electron bunches

2015

Trains of ultrashort electron pulses with THz repetition rate, so-called comblike beams, are assuming an ever growing interest in plasma-based acceleration. In particle-driven plasma wakefield acceleration (PWFA), a train of driver bunches with separation of the order of plasma wavelength, i.e., 300 μm, resonantly excites a plasma wake, which accelerates a trailing witness bunch, injected at the accelerating phase. Comblike beams have great potentialities in different fields of applications. In particular, radiation sources, such as free-electron lasers and THz radiation, take advantage from the possibility to tailor electron beams modulated both in time and energy, to customize emission ba…

electron beamNuclear and High Energy PhysicsBrightnessPhysics and Astronomy (miscellaneous)Terahertz radiationlaw.inventionacceleratorsOpticslawdiagnosticslcsh:Nuclear and particle physics. Atomic energy. RadioactivityPhysicsbusiness.industrySettore FIS/01 - Fisica Sperimentaleelectron beam diagnostics plasma accelerationSurfaces and InterfacesPlasmaPlasma accelerationLaserSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Bunchesplasma accelerationPhase spaceCathode raylcsh:QC770-798Physics::Accelerator PhysicsbusinessPhysical Review Special Topics - Accelerators and Beams
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Topological surface wave metamaterials for robust vibration attenuation and energy harvesting

2021

International audience; We propose topological metamaterials working in Hertz frequency range, constituted of concrete pillars on the soil ground in a honeycomb lattice. Based on the analog of the quantum valley Hall effect, a non-trivial bandgap is formed by breaking the inversion symmetry of the unit cell. A topological interface is created between two different crystal phases whose robustness against various defects and disorders is quantitatively analyzed. Finally, we take advantage of the robust and compact topological edge state for designing a harvesting energy device. The results demonstrate the functionality of the proposed structure for both robust surface vibration reduction and …

energy harvestingGeneral MathematicsrobustnessTopology[SPI.MAT]Engineering Sciences [physics]/Materials[SPI]Engineering Sciences [physics]Surface wave metamaterialHertzHoneycombGeneral Materials Science[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsQuantumCivil and Structural EngineeringPhysics[SPI.ACOU]Engineering Sciences [physics]/Acoustics [physics.class-ph]topological insulatorMechanical EngineeringMetamaterialCondensed Matter::Mesoscopic Systems and Quantum Hall EffectPhysics::Classical PhysicsLattice (module)vibration attenuationMechanics of MaterialsSurface waveTopological insulatorEnergy harvesting
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Trade-off Performance of Optical Nanoantennas for Solar Energy Harvesting Applications

2019

In this paper, the optimum behaviour of optical nanoantennas, in terms of impedance, directivity, available power, and field enhancement, at a resonance frequency of about 350 THz, will be shown. Optimum configurations are obtained by varying nanoantennas geometry in order to maximize the available power, enhancing the electric field in gap proximity and so the absorptivity. Moreover, the simulation results for aluminum nanoantennas on a three-layers substrate, will be reported, and a trade-off performance comparison among different antennas will be discussed. This study can guide both the engineering and the fabrication of plasmonic nanoantennas.

energy harvestingNanoantennaMaterials scienceFabricationField (physics)Terahertz radiation02 engineering and technology01 natural sciencesDirectivitySettore ING-INF/01 - Elettronicalaw.invention010309 opticslawElectric field0103 physical sciencesopticalDipole antennaElectrical impedancePlasmonplasmonicbusiness.industryBowtie021001 nanoscience & nanotechnologyOptoelectronics0210 nano-technologybusinessdipole
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Improving nanoscale terahertz field localization by means of sharply tapered resonant nanoantennas

2020

Abstract Terahertz resonant nanoantennas have recently become a key tool to investigate otherwise inaccessible interactions of such long-wavelength radiation with nano-matter. Because of their high-aspect-ratio rod-shaped geometry, resonant nanoantennas suffer from severe loss, which ultimately limits their field localization performance. Here we show, via a quasi-analytical model, numerical simulations, and experimental evidence, that a proper tapering of such nanostructures relaxes their overall loss, leading to an augmented local field enhancement and a significantly reduced resonator mode volume. Our findings, which can also be extended to more complex geometries and higher frequencies,…

enhanced light-matter interactionMaterials scienceField (physics)business.industryTerahertz radiationPhysicsQC1-999Physics::Optics02 engineering and technology021001 nanoscience & nanotechnologySettore ING-INF/01 - Elettronica01 natural sciencesAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materials010309 opticsnanoantennas0103 physical sciencesOptoelectronicsnanoantennaElectrical and Electronic Engineering0210 nano-technologybusinessNanoscopic scaleterahertz science and technologyBiotechnologyNanophotonics
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TAPERING RESONANT NANOANTENNAS FOR ENHANCED THz LIGHT – NANOMATTER INTERACTIONS

2020

Nel corso degli ultimi decenni la tecnologia terahertz (THz) è diventata un fruttuoso campo di ricerca grazie alla spinta ricevuta dal desiderio di sfruttarne le promettenti applicazioni in questa porzione dello spettro elettromagnetico. La biologia, la medicina e l’ingegneria sono soltanto alcuni dei settori che guardano con interesse alle ultime scoperte nella ricerca sulle onde THz. Questo enorme interesse nasce dalle peculiari proprietà di tali onde, come ad esempio: il carattere non ionizzante, l’opacità di svariati materiali solitamente trasparenti in altri intervalli di frequenze e per le potenziali ricadute positive nel campo della tecnologia dell’informazione. Una fra le applicazio…

enhanced light-matter interactionnanoantennaSettore ING-INF/01 - Elettronicaterahertz science and technology
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