简介:AcompositetransparentYAG/Yb:YAG/YAGceramicwaspreparedbyanon-aqueoustape-castingmethod.Anopticaltransmittanceof82%wasobtainedatvisiblewavelengthandaround1100nm.Alow-threshold,broadbandtunablecontinuous-wave(CW)laserat1031nmwasfurtherdemonstratedfromtheceramicsample,whichwaspumpedbya974nmfiber-pigtailedlaserdiode.Thethresholdpumppowerwas0.45Wandthemaximumoutputpowerwas3.2W,correspondingtoaslopeefficiencyof20.4%.ByinsertinganSF57prisminthelasercavity,theoutputwavelengthcouldbetunedcontinuouslyfrom1021to1058nm.
简介:Wereportonthedesign,realization,andoutputperformanceofadiode-pumpedhigh-peak-powerpassivelyQ-switchedNd:YAG∕Cr4+:YAGcompositemediummonolithiclaserwithfour-beamoutput.Theenergyofalaserpulsewashigherthan3mJwithdurationof0.9ns.Theproposedsystemhastheabilitytochooseindependentlythefocusofeachbeam.Suchalaserdevicecanbeusedformultipointignitionofanautomobilegasolineengine,butcouldalsobeofinterestforignitioninspacepropulsionorinturbulentconditionsspecifictoaeronautics.
简介:AstablewavelengthoperationHo:YAGlaserdual-pumpedbytwoorthogonallypolarizedTm:YLFlasersisreported.Underthecwoperationmode,alaseroutputpowerof24Wismeasured.Thecorrespondingopticalopticalconversionefficiencyis44.75%andtheslopeefficiencyis50.12%.UndertheQ-switchedoperationmode,theoutputmaximumaveragepoweris22.8Watthere-frequencyof6kHz.Thecorrespondingoptical-opticalconversionefficiencyandslopeefficiencyare42.64%and48.01%,respectively.Theoutputcentralwavelengthis2090.73nm,thelinewidthis0.40nm,andthebeamqualityisM~2<1.6.Moreover,theshiftoftheoutputcentralwavelengthislessthan0.01nm,andthelinewidthshiftisalsolessthan0.01nm.
简介:Thehighrepetitionrate10J/10nsYb:YAGlasersystemanditskeytechniquesarereported.Theamplifiersinthissystemhaveamulti-passV-shapestructureandtheheatintheamplifiersisremovedbymeansoflaminarwaterflow.Inthemainamplifier,thelaserisfour-pass,andanapproximately8.5J/1Hz/10nsoutputisachievedintheprimarytest.Thefar-fieldoftheoutputbeamisapproximately10timesthediffractionlimit.Becauseofthehigherlevelsofamplifiedspontaneousemission(ASE)inthemainamplifier,theoutputenergyislowerthanexpected.Attheendwediscusssomemeasuresthatcanimprovethepropertiesofthelasersystem.
简介:ThisworkdemonstratestheNd:YAGwaveguidelaserasanefficientplatformforthebio-sensingofdextrosesolutionsandtumorcells.ThewaveguidewasfabricatedinanNd:YAGcrystalwiththecooperationofultrafastlaserwritingandionirradiation.ThelaseroscillationintheNd:YAGwaveguideisultrasensitivetotheexternalenvironmentofthewaveguide.Evenaweakdisturbanceleadstoalargevariationoftheoutputpowerofthelaser.Accordingtothisfeature,anNd:YAGwaveguidecoatedwithgrapheneandWSe2layersisusedassubstrateforthemicrofluidicchannel.WhenthemicroflowcrossestheNd:YAGwaveguide,thelaseroscillationinthewaveguideisdisturbedandinducesfluctuationoftheoutputlaser.Accordingtothefluctuation,themicroflowisdetectedwithasensitivityof10mW/RIU.
简介:Adiode-pumpedmasteroscillatorpoweramplifiersystembasedonacryogenicYb:YAGactive-mirrorlaserhasbeendeveloped.Theperformancesofthelaseramplifieratlowtemperatureandroomtemperaturehavebeeninvestigatedtheoreticallyandexperimentally.Amaximumoutputenergyof3.05Jwithanoptical-to-opticalefficiencyof14.7%hasbeenachievedbyusingthemasteramplifiersystem.
简介:Wereportonadiode-end-pumpedhigh-powerandhigh-energyNd:YAGsingle-crystalfiberlaserat1834nm.Two808nmdiodesinjectingabout58WpumppowerintotheNd:YAGfiberhavegenerated3.28Wcontinuouswaveand1.66WCr:ZnSe-basedpassivelyQ-switchedlasers.Slopeefficiencieswithrespecttopumppowersare8.7%forthecontinuous-wavelaserand4.9%fortheQ-switchedlaser.Theextractedmaximumpulseenergyisabout266.9μJ,andthecorrespondingmaximumpulsepeakpoweris2.54kW.Theseperformancesgreatlysurpasspreviousresultsregardingthisspecificlaseremissionbecausethelasergainmediumintheformoffibercansignificantlymitigatethermallyinducedpowersaturationthankstoitssignificantlyreducedthermallensingeffect.Single-crystalfiberlasersshowgreatpotentialforhighaveragepower,pulseenergy,andpeakpower.
简介:从光学谐振腔阈值条件的推导出发,利用光学薄膜设计软件Filmstar为谐振腔的左右腔镜各设计了两种光学薄膜,使1030.5nm-1055.5nm波段连续可调谐的Yb:YAG激光器实现了工作状态的最优化.针对左右腔镜,对设计方案所得结果进行了比较,并分析了方案的可行性.结果表明,左腔镜两设计方案与优化目标的差距均小于1.15%;右腔镜两设计方案与优化目标的差距均小于0.05%,本文设计为激光器谐振腔的腔镜镀膜提供了可靠的理论依据.
简介:Weproposeageneralmethodologytodefinetheoptimumdopingionvolumedistributionrequiredforanefficientsolid-statelaseramplifier.ThisapproachisillustratedinthecontextoftwoexperimentaldiodepumpedYb:YAGamplifiersoperatingat300and160K.Processingofsuchtailoredgainmediaisnowpossiblethroughhorizontaldirectcrystallization.
简介:激光二极管栈抽结束的电镀物品光学地切换Q的Nd:有near-diffraction-limited输出的钇铝柘榴石平板振荡器放大器系统被一个马厩不稳定的混合共鸣器表明。以有脉搏宽度14.7ns的10kHz的重复率的100W的平均力量和以有10.2ns的脉搏宽度的5kHz的重复率的76.3W的平均力量被测量。以10kHz的重复率并且在89W的产量力量,在不稳定、稳定的方向的横梁质量因素M2分别地是1.3和1.5。[从作者抽象]
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简介:铍为脆性材料,在焊接时容易使焊缝开裂。为了防止焊缝开裂,途径之一是加延展性比较好的金属或合金(如Al-Si合金或银等)作填充材料进行钎接焊。但是,铍在非真空条件下焊接,在焊缝中出现的主要缺陷是焊接气孔和缩孔。人们早已知道,纯铝在焊接或铸造时的加热过程中会吸收环境中的氢,冷却时熔体要释放氢从而形成以氢为特征的氢气孔,进而影响铝加工的质量。这表明铝及铝合金焊接形成的气孔主要是与焊接时熔体的氢含量有关。那么,在加Al-Si合金焊接铍时,产生的气孔是否也与氢含量的关系,Al-Si合金熔体随温度升高氢含量有何变化趋势,Al-Si合金中的Si对铝熔体的吸氢起何作用。