Search results for " rectenna"

showing 6 items of 6 documents

A Novel Energy Harvester for Powering Small UAVs: Performance Analysis, Model Validation and Flight Results

2019

The proposed work aims at exploring and developing new strategies to extend mission parameters (measured as travel distance and mission duration (MD)) of a new class of unmanned vehicles, named Micro Air Vehicles (MAVs). In this paper, a new analytical model, identifying all factors, which determine the MAV power consumption, is presented. Starting from the new model, the design of a nanoarray energy harvester, based on plasmonics nano-antenna technology is proposed. The preliminary study was based on a 22,066,058 22,066,058 &times

Battery (electricity)Computer scienceTerahertz radiation02 engineering and technologylcsh:Chemical technologyBiochemistryenergy harvesterSettore ING-INF/01 - ElettronicaEnergy harvesterAutomotive engineeringArticleAnalytical ChemistryModel validationnano-antennanano-antennasdipole rectenna array0202 electrical engineering electronic engineering information engineeringlcsh:TP1-1185Electrical and Electronic EngineeringInstrumentationPlasmonPower densityenergy harvester; MAV; power consumption model; nano-antennas; dipole rectenna array; perpetual flightWork (physics)perpetual flightpower consumption model020206 networking & telecommunications021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsRectenna0210 nano-technologyMAVEnergy (signal processing)
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Evaluation of an Optical Energy Harvester for SHM Application

2019

Abstract In this paper a preliminary study on an array configuration of rectified optical nanoantennas for energy harvesting application is proposed. Currently, the major impediments for the use of the rectified optical nanoantenna known as rectenna are the relatively low conversion efficiency and low power transfer to the load, both of them caused mainly by the mismatch between the impedance of the rectifier (several kilo ohms) and that of the antenna (hundreds of ohm). For this reason, the design of the array represents a crucial point to obtain the maximum energy transfer from the rectenna to the load, represented as a typical DC/DC boost power converter, and modeled by an equivalent inp…

Computer sciencebusiness.industryImpedance matchingElectrical engineeringImpedance and voltage matching Optical rectennas array Rectenna Structural Health Monitoring (SHM)020206 networking & telecommunications02 engineering and technologySettore ING-INF/01 - Elettronica03 medical and health sciencesRectifierRectenna0302 clinical medicine0202 electrical engineering electronic engineering information engineeringMaximum power transfer theoremStructural health monitoringElectrical and Electronic EngineeringAntenna (radio)businessEnargy Harvesting Nanoantennas Structural Health MonitoringEnergy harvestingElectrical impedance030217 neurology & neurosurgery
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Optical Nanoantennas for Energy Harvesting

2016

In the last decade, the increasing demand for renewable energy has been leading to the development of new devices, which overcome the disadvantages of the traditional photovoltaic conversion and exploit the thermal radiation created by the Sun, that is transferred in the form of electromagnetic waves into free space and finally absorbed by the surface of the Earth [1-2]. These new devices, called nanoantennas, have only recently been considered thanks to the development of electron beam lithography and similar techniques. Nanoantennas operate at nanometers wavelengths and their dimensions range from a few hundred nanometres to a few microns. They exhibit potential advantages in terms of pol…

Nanoantenna rectenna Seebeck nanoantennas visible and infrared detection energy harvesting.Settore ING-INF/01 - Elettronica
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Nonlinear photon-assisted tunneling transport in optical gap antennas.

2014

International audience; We introduce strongly coupled optical gap antennas to interface optical radiation with current-carrying electrons at the nanoscale. The transducer relies on the nonlinear optical and electrical properties of an optical gap antenna operating in the tunneling regime. We discuss the underlying physical mechanisms controlling the conversion involving d-band electrons and demonstrate that a simple two-wire optical antenna can provide advanced optoelectronic functionalities beyond tailoring the electromagnetic response of a single emitter. Interfacing an electronic command layer with a nanoscale optical device may thus be facilitated by the optical rectennas discussed here.

PhotonMaterials sciencePhysics::OpticsBioengineering02 engineering and technologyElectron01 natural scienceselectromigration0103 physical sciencesGeneral Materials Science010306 general physicsoptical rectennasQuantum tunnellingPlasmonCommon emitterphoton-assisted tunneling[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]business.industryMechanical EngineeringGeneral Chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsTransducerOptoelectronicsPlasmonicsOptical radiationAntenna (radio)0210 nano-technologybusinessNano letters
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Innovative systems based on optical nanoantennas for energy harvesting application

The purpose of this study is to outline the main guidelines for the design of arrays of optical rectennas aiming to harvest energy and for the optimization of the power transfer to an external load. In particular, the novelty of this study consists in introducing the concept of the integrated design between the array of optical rectennas and the harvesting circuit able to exploit the available energy. The design of the array represents the crucial point in order to optimize the power transfer between the antenna and the load and can influence the rectenna design. On the other hand, the maximum power transfer to the load has to be obtained under matching conditions between the array and the …

RectennaRectifierDC-DC boost converterOptical Nanoantennas; Rectennas; Rectennas; Rectifiers; DC-DC boost converters; Rectennas array design; Energy Harvesting; Maximum power transfer optimization.Energy HarvestingMaximum power transfer optimization.Optical NanoantennaRectennas array designSettore ING-INF/01 - Elettronica
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Rectifications optique et thermique générées à l'aide de jonctions tunnel planaires électromigrées

2017

The work described in this manuscrit consists in studying the optical rectification within plasmo-electronic devices. These ultra-compact optically adressed components with an ultra-fast time response induces a conversion of the incident field into a static current. The monolithically-integrated electronically optical antenna requires a detailed knowledge of nanoscale thermal and electrical transport mechanisms. This work also aims to discuss all thermal effects inherent in the optical excitation of these connected devices, in order to identify the different contributions in the generation of a photo-assisted current.

[PHYS.PHYS.PHYS-OPTICS] Physics [physics]/Physics [physics]/Optics [physics.optics]Optical rectennasJonctions tunnel[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]ElectromigrationEffets thermo-Électriques[PHYS.PHYS]Physics [physics]/Physics [physics]Optical rectificationThermal rectificationThermoelectric effectsRectennas optiquesTunnel junctionsRectification thermique[PHYS.PHYS] Physics [physics]/Physics [physics]Rectification optique
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