简介:AprototypeRamanlidarwasdesignedformonitoringtroposphericCO_2profileandotherscientificin-vestigations.ThethirdharmonicofNd:YAGlaser(354.7-nmwavelength)wasusedasstimulatedlightsourcetoprovidenighttimemeasurements.FilterwithhighrejectionratioperformancewasusedtoextractCO_2RamansignalsfromRayleigh-Miescatteringsignalseffectively.Toimprovetherealtimemonitoringfunction,atwo-channelsignalcollectionsystemwasdesignedtocollectCO_2andN_2Ramanscatteringsig-nalssimultaneously.TheN_2Ramanscatteringsignalswereusedtoretrieveaerosolextinctioncoefficient.TypicalfeaturesofCO_2concentrationprofileandaerosolextinctioncoefficientinHefeiwerepresented.ThemixingratioofatmosphericCO_2inHefeicanreachabout360-400ppmv.
简介:Becausepulserepetitionrateaffecteddirectlythemomentumcouplingcoefficientoftransverselyexcitedatmospheric(TEA)CO2laserpropulsion,adoublepulsetrigger,controllinghighvoltageswitchoflaserexcitationcircuit,wasdesigned.Thepulseintervalrangedbetween5and100ms.Themomentumcouplingcoefficientforair-breathingmodelaserpropulsionwasstudiedexperimentally.Itwasfoundthatthemomentumcouplingcoefficientdecreasedwiththepulserepetitionrateincreasing.
简介:目前汽车助力装置的主流是真空助力和气压助力。真空助力结构小巧,但存在安全隐患;气压助力安全性好,但结构庞大。高液压存储仓的日的是提供一种小巧且安全性兼顾的装置。高液压存储仓的基本工作原理是利用制冷剂的瓜力特性,用制冷剂充当储压剂来储存压力液的能量。使整罐压力液能够以高达20~25MPa的准恒压向外作功。讨论了液压仓的基本结构和工作原理、储压剂选择的难题、抑制泄漏的措施、超临界CO2的特性,在此基础上,提出了存储高液压的超临界CO2液压仓的设计思路,用超临界CO2和温控相配合,得到了准恒高压压力液,实现了小巧且安全性兼顾,由此产生新型的制动、转向、离合助力器。
简介:Tris-(8-hydroxyquinoline)-aluminumeAlq3T–basedorganiclight-emittingdiodeswithCoelectrodearefabricated.Thepositivemagneticelectroluminescence(MEL)andmagneticconductance(MC)areobservedinthesamples,reaching4.35%and1.67%underthefieldof42mTat50K,respectively,andtheMELandMCtracescanbefittedtonon-Lorentzianlineshapes.TheMELvariesasafunctionoftheCothicknessandreachestheoptimalvalueat10nm.TheMELandMCdependenceonvoltageandtemperatureisalsoinvestigated.Theelectron-holepairmodelandthespin-polarizedinjectionmechanismareusedtounderstandtheexperimentalresults.
简介:Theeffectofλ/2SiO2overcoatonthelaserdamagecharacteristicsofHfO2/SiO2high-reflector(HR)coatingsisinvestigatedwith1-on-1andN-on-1laserdamagetestmethods.Thelaserdamagesurfaceof1-on-1isanalyzedbyastepanalyzer.ThesurfacemorphologiesshowthatlaserdamagemakesthecoatingdamagedareaprotrudentandroughforHRcoatingwithoutλ/2silicaovercoat,butconcaveandsmoothforHRcoatingwithλ/2silicaovercoat.Theresultof10-on-1multi-pulseirradiationonthesamepointofthecoatingshowsthatthereisanenergydensitystageonthedamagecurve.Ifthelaserenergydensityiswithintherangeofthestage,HfO2/SiO2HRcoatingswithλ/2silicaovercoatwillnotbedamagedmorethan2timesformulti-shots,andthesurfacedamagesareveryslightsothatthereisnoimpactonthecoatingperformance.Anotherinterestingresultisthattheenergydensitystageextendsfromthedamagethresholdtothepointofabout3timesofthreshold,whichissimilartotheeffectofthelaserconditiononcoating.
简介:EnergystorageandheatdepositioninCr,Yb,Erco-dopedphosphateglasswerereported.Amodelbasedonrateequationswasusedtodeterminetheenergystoragefromthefree-oscillatingoutputenergycharacteristics.Theheatdepositionwascalculatedbymeasuringthetemperatureriseoftheglassrod.TheresultsprovidedimportantinformationfortheglassoperatinginQ-switchedmode,andalsoforcalculatingthetemperatureprofilesandcoolingrequirementsoftheglassundersingleshotandrepetitivepulsedconditions.
简介:针对滑移转向式四轮独立驱动(Four-wheelIndependentDrive,4WD)电动汽车,提出一种直接横摆力矩运动控制算法。根据扩展卡尔曼滤波(ExtendedKalmanFilter,EKF)算法设计了车辆动态参数观测器,并根据车辆的目标车速与转向半径计算所需的横摆力矩,针对各轮的纵向力进行了优化分配算法的设计。Carsim与Matlab/Simulink的联立仿真结果表明,观测器能够准确、实时地对车辆动态参数进行在线估计,运动控制器在实现车辆运动目标的同时还保证了车辆的运动稳定性和期望速度,以及期望转向半径最大实时误差率控制在4.5%以内,轮胎纵向力优化分配算法有效地降低了轮胎的负荷率。
简介:Thenonlinearswitchingcharacteristicsoffusedfiberdirectionalcouplerswerestudiedexperimentally.Byusingfemtosecondlaserpulseswithpulsewidthof100fsandwavelengthofabout1550nmfromasystemofTi:sapphirelaserandopticalparametricamplifier(OPA),thenonlinearswitchingpropertiesofanullcoupleranda100%couplerweremeasured.Theexperimentalresultswerecoincidentwiththesimulationsbasedonnonlinearpropagationequationsinfiberbyusingsuper-modetheory.Nonlinearlossinfiberwasalsomeasuredtogettheinjectedpoweratthecoupler.Afterdeductingthenonlinearlossandinputefficiency,thenonlinearswitchingcriticalpeakpowersfora100%andanullfusedcouplerswerecalculatedtobe9410and9440W,respectively.ThenonlinearlossparameterPNinanexpressionofαNL=αP/PNwasobtainedtobePN=0.23W.