简介:基于光电转换基本原理,设计并研制了用于转镜式高速扫描相机扫描速度的检测装置,包括均匀脉冲光源、精密双狭缝、超快响应光电转换器以及高带宽、高采样率数字示波器等。论述了检测装置的核心部件,用该装置实测了SJZ-15型转镜扫描相机名义扫速为4.5mm/μs的扫描速度,计算出了扫速不均匀性。按照国军标GJB3756,对检测装置的测量不确定度来源进行了分析,给出了该装置的不确定度评定方法及测量不确定度,对检测结果的评定表明,该检测装置的相对测量不确定度不大于0.1%,远低于目前转镜扫描相机的最大扫速不均匀性水平。实验证明,设计的检测装置具有很高的准确度和可靠性。
简介:Themicrowavephotonicfilters(MPFs)basedonseriallycoupledsiliconmicroringresonators(MRRs)aretheoreticallyanalyzedfortheapplicationof60-GHzmillimeterwavewirelesspersonalareanetworks.Thisisachievedbycalculatingtheimprovementofbiterrorratio(BER).Accordingtothesimulationresults,therequirementofsignal-to-noiseratio(SNR)ofthereceiveddatacanbereducedby14dBforthesameBERwithandwithoutMPFs.TheperformanceoftheMPFwithfiveseriallycoupledmicroringstructuresisbetterthanthatoftheMPFwithasinglemicroring,owingtotheimprovementoftheshapefactor.
简介:Aweakinfrared(IR)imageamplifierwithmorethan60-dBopticalgainandfrequencyup-conversionisdevelopedfromapicosecond(PS)355-nmpumpedgatedopticalparametricamplifier(OPA)inaβ-BaB2O4(BBO)crystal.TheIRimageat1064nmisamplifiedandup-convertedintothevisibleregionat532nmbyparametricamplificationandup-conversion.Withtheoptimizedopticalgain,thelowestdetectableenergyoftheimagecanbeaslowas1.8femto-Jouleperpulse,whichisthreeordersofmagnitudelowerthanthedetectionlimitofacharge-coupleddevice(CCD)camera.ThetransversalresolutionoftheOPAimagingisinvestigated,andtheapproachesforhigherdetectionsensitivityandhighertransversalresolutionareproposed.
简介:Real-timevideostreamingusingultra-wideband(UWB)technologyisexperimentallydemonstratedalonglong-reachpassiveopticalnetworks(LR-PONs)withdifferentwiredandwirelessreaches.ExperimentaltestsusingexternalanddirectmodulationwithUWBwirelessradiationinthe10-and60-GHzbandsareperformed.Anultra-bendablefiberisalsoconsideredforalast-miledistribution.ThevideoqualityattheoutputoftheopticalfiberinfrastructureoftheLR-PONisassessedusingtheerrorvectormagnitude(EVM),andthelinkqualityindicator(LQI)isusedasafigureofmeritafterwirelessradiation.AnEVMbelow–17dBisachievedforbothexternallyanddirectlymodulatedLR-PONscomprisingupto125kmofopticalfiber.EVMimprovementisobservedforlongerLR-PONswhendirectlymodulatedlasers(DMLs)areusedbecauseoftheamplitudegainprovidedbythecombinedeffectofdispersionandDML’schirp.Comparedwithopticalback-to-backoperation,theLQIleveldegradestothemaximumaround20%forLR-PONsrangingbetween75and125kmoffiberreachandwithawirelesscoverageof2minthe10-GHzUWBband.ThesamelevelofLQIdegradationisobservedusingthe60-GHzUWBbandwithaLR-PONintegrating101kmofaccessnetwork,alast-miledistributionusingultra-bendablefiber,anda5.2-mwirelesslink.