简介:Optofluidics是光学和microfluidics(薄片上的所谓的实验室)的集成。液体的使活动在那里是一种关键技术。在为控制microscale液体的许多方法,轻使活动特别地有趣。轻使活动提供一个新奇方法控制液体的流动为生物医学并且biotechnological应用,等等……设备的复杂性和费用可以被使用完全的光控制极大地有时减少并且可能比另外的方法在操作更灵活。然而,液体的轻使活动是象optofluidics一样的一块发芽的地。有大量工作做。这里,我们系统地基于下列点为液体的轻使活动描述四机制:optoelectrowetting,photothermal效果,放射压力,感光性的物质。
简介:Thecombineduseofthephotoelectricandelectro-opticpropertiesofBSOcrystal(Bi12SiO20)leadstorealizespatiallightmodulation.Undersomecondition,BSOcrystalcanbecomebirefringentdependingonalocalilluminance.Therelationshipbetweenthedistributionsofanilluminanceandabirefringencewillbediscussed.Thisspatiallightmodulatorcanworkinreal-time.Theexperimentshows,inordertoincreasethesensitivityofBSOcrystal,anelectricfieldof6kV/cmatanatmospherepressureof15×10^5PashouldbeappliedtoBSOcrystal.WithBSOwehavemeasured3-dimensionaldeformationbymeansofreal-timeholography.
简介:MeasuringRadiometricQuantitiesofLightSourcebyWayofAlgebraicInsert①LIULi,LIZhiquan,WUZhaoxia,TANGXuhui(YanshanUniversity,Qinhu...
简介:Thestructuralparametersoflow-steppedmirrorwhichisthecorecomponentofalightFouriertransforminfraredspectrometer(FTIRS)haveimportantinfluenceontheperformanceoftheinstrument.Asimplemethodofmultipledepositionisproposedtofabricatealow-steppedmirrorwithstepheightof625nm,foritshighprecision,highefficiencyandminiaturization.Sothefilmstresswillbeintroducedintheprocessofcoating,whichcanleadtostepdeformation.Webuildabendingmodelofthelow-steppedmirrorandanalyzetheinfluenceofitsdeformation.Thelightintensityandspectrumarechangedbythestepdeformation.Therefore,thefilmstressshouldbereducedinordertoensuretheaccuracyofthespectralinformation.Increasingthethicknessofsubstrateis.proposedinthispapertoreducethestepdeformation,besidesadjustingthecoatingtemperatureandaddingsub-layer.Ourresultsrevealthatthebasicrequirementsofthesystemaresatisfiedwhenthethicknessofthesubstrateis5mmintheappropriatecoatingenvironment.AnFTIRSbasedonsteppedmirrorsandgridbeamsplitterisassembledandcorrespondingexperimentiscarriedouttoobtainthespectrumcurveofacetonitrile.
简介:Theholeinjection,theradiativerecombinationandthedevicelumi-nescentefficienciesofamorphoussiliconcarbidethinfilmp-I-njunctionlightemit-tingdiodesarequantitativelycalculated,andtheeffectofthecarrier(especiallythehole)injectionandrecombinationprocessesonthedeviceluminescentcharacteris-ticsarerevealed.Withoutconsideringthedevicejunctiontemperature,itisroundthatthedeviceluminescentefficiencymainlydependsontheholeinjectionefficiencyatlowfieldandtheholeradiativerecombinationefficiencyathighfieldrespective-ly.Thetheoreticalanalysesareinwellagreementwiththeexperimentalresults.
简介:有有限阴极联系的欧姆的阳极接触和注射的一个双性人层模型被建议了计算再结合效率和设备的再结合区域宽度。洞传送层的厚度和联合效率和再结合宽度上的organic/organicinterface的障碍的效果被讨论了。它被发现那:(1)当电子充分被堵住,洞没在theorganic/organic接口显著地被堵住时,为给定的L_h/L,再结合效率与增加应用电压增加,但是在更高应用的电压,有增加L_h/L的再结合效率减少;(2)有增加的再结合效率增加使用了电压andH′_h,并且什么时候使用了电压和H′_h超过某价值,再结合效率作为一个高原出现;(3)有增加应用电压和L_h/L.This模型的再结合宽度减少可能向相对实验解释现象。
简介:InGaN-basedlight-emittingdiode(LED)asforthereplacementofconventionalfluorescentlightingsourcestillneedsagreatefforttoimprovethelight-extractingefficiencyaswellasinternalquantumefficiencyofLEDs.Surfaceplasmontechnologyhasrecentlyattractedconsiderableinterest,becausethespontaneousemissionrateandthelightextractionefficiencyofalight-emittingdevicecanbesimultaneouslyenhancedthroughthecouplingbetweenanInGaNquantumwellandsurfaceplasmons.Thesurfaceplasmon-emittercouplingtechniquewouldleadtohighbrightnessmultichipwhiteLEDsthatofferrealisticalternativestoconventionalfluorescentlightsources.Inthisarticle,thepossibleenhancementmechanismofsurfaceplasmonisdiscussed,andthenrecentdevelopmentsofsurface-plasmon-enhancedlight-emittingdiodeareintroduced.
简介:基于常规双电子锅设备,三倍的层有铟听氧化物(ITO)的二异种结构的器官的轻射出的二极管(OLED)/N,N′-diphenyl-N,N′-bis(1-naphthyl)(1,1′-biphenyl)-4,4′-diamine(NPB)/2,9-dimethyl-4,7-diphenyl-1,10-phenanthroline(BCP)/8-Hydroxyquinoline铝(用真空免职方法的Alq3)/Mg:Ag被制作了。OLED的表演上的BCP层的不同电影厚度的影响被调查了。结果证明当BCP层电影的厚度逐渐地从0.1nm变化了到4.0nm时,OLED的电镀物品光(EL)系列从绿色变了到对蓝色,和作为与EL光谱有关的费用搬运人的再结合区域扮演的BCP层浅绿色蓝色,提高亮度和力量效率。象7.3lm/W一样高到达的OLED的力量效率。
简介:Toquicklyobtainaccurate3Ddataofdentalcastmodel,thispaperproposesa3Dreconstructionmethodfordentalcastmodelbasedonstructuredlight.Thismethodcombinesthestructuredlightwiththemotorturntabletoobtainagroupof3Ddataforthedentalcastmodelfrommultipleangles,andautomaticallyregistersthedental3Ddatafrommultipleanglesthroughtheballcalibrationofturntable.Comparedwiththerealdataofthedentalcastmodel,themaximumerrorofthe3Dreconstructionresultsinthispaperis0.115mm.Thereconstructiontimeofthisprocessisabout130s.Theexperimentalresultsshowthatthemethodhashighprecisionandhighscanningspeedforthe3Dreconstructionofthedentalcastmodel.
简介:Throughexperimentsandcomputersimulation,theinfluenceoftheenergylevelsoforganicmaterialsandelectrodematerialsintheorganiclight-emittingdiodes(OLEDs)onthedeviceperformancesisdiscussed.Resultsshowthatthedeviceperformancesareinfluencedbynotonlythecarrierinjectionbarriersattheelectrodeinterfacebutalsothebarriersattheorganicheterojunctioninterface.ThisresultishelpfultotheselectionoftheorganicmaterialsandtheirarrangementintheoptimaldesignofOLEDs.