简介:ThesurvivalprobabilityofsuperheavynucleiproducedincoldfusionreactionsisstudiedbyusingthestandardFermigasleveldensityformulaandanalyzedwithfissionandneutronevaporationcharacteristicspredictedindifferenttheoreticalmodels.Theleveldensityformulausedinthislettersuppressestheratioofneutronemissionwidthtofissionwidth,Гn/Гf.ThedependenceofГn/Гfonthesaddlepointleveldensityparameterandexcitationenergyisalsoinvestigated.
简介:Anovelread-onlysuper-resolutionopticaldiscstructure(substrate/masklayer/dielectriclayer)ispropsedinthispaper.ByusingaSithinfilmasthemasklayer,therecordingpitswithadiameter380nmandadepth50nmarereadoutonthedynamicmeasuringequipment;thelaserwavelengthλis632.8nmandthenumericalapertureis0.40.IntheoftheSithinfilmis18nmandthesignal-to-noiseratiois32dB.
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简介:在这研究,当簇被用来设计由中央的和六外部heptamers组成的super-heptamer,金nanodisk在heptamer聚类取向。我们由勾略检验了电浆子和Fano回声的位置和运动光谱为各种各样的nanodisk尺寸的上层建筑的反应。在superradiant和nanodisk簇的subradiant电浆子回声模式之间的干扰的质量被发现强烈取决于结构的配置和环境媒介的折射索引。我们用nanodisk代替了中央heptamer并且由几何上改变nanodisk结构探查了Fano回声的位置。最后,学习结构的两个的电浆子反应上的绝缘的环境的效果数字地并且理论上被检验。到液体物质的存在的有限plasmonic结构的局部性的表面电浆子回声敏感被阴谋优点的线性数字调查并且出现。有限差别的时间域方法被用作一个数字工具调查结构的电浆子反应。
简介:Icing(oriceaccretion)isaphenomenoninwhichsuper-cooledwaterdropletsimpingeandaccreteonabody.Itiswellknownthaticeaccretiononbladesandvanesleadstoperformancedegradationandhascausedsevereaccidents.Althoughvariousanti-icinganddeicingsystemshavebeendeveloped,suchaccidentsstilloccur.Therefore,itisimportanttoclarifythephenomenonoficeaccretiononanaircraftandinajetengine.However,flighttestsforiceaccretionareveryexpensive,andinthewindtunnelitisdifficulttoreproduceallclimateconditionswhereiceaccretioncanoccur.Therefore,itisexpectedthatcomputationalfluiddynamics(CFD),whichcanestimateiceaccretioninvariousclimateconditions,willbeausefulwaytopredictandunderstandtheiceaccretionphenomenon.Ontheotherhand,althoughtheicingcausedbysuper-cooledlargedroplets(SLD)isverydangerous,thenumericalmethodhasnotbeenestablishedyet.ThisiswhySLDicingischaracterizedbysplashandbouncephenomenaofdropletsandtheyareverycomplexinnature.Inthepresentstudy,wedevelopaniceaccretioncodeconsideringthesplashandbouncephenomenatopredictSLDicing,andthecodeisappliedtoafanrotorblade.ThenumericalresultswithandwithouttheSLDicingmodelarecompared.Throughthisstudy,theinfluenceoftheSLDicingmodelisnumericallyclarified.
简介:A3DfiniteelementmodelfortheTaizhouYangtzeRiverBridge,thefirsttriple-towerlong-spansuspensionbridgeinChina,isestablishedbasedonthenonlinearfiniteelementsoftwareABAQUS,andthedynamiccharacteristicsofthebridgeareanalyzedusingtheLANCZOSeigenvaluesolutionmethod.Thestudyfocusesontheeffectsofthevertical,lateralandtorsionalstiffnessofthesteelboxgirder,therigidcentralbuckleandtheelasticrestraintsconnectingthetowersandthesteelboxgirderonthedynamiccharacteristicsofthetriple-towersuspensionbridge.Ourresultsshowthat,ingeneral,thedynamiccharacteristicsofthetriple-towersuspensionbridgearesimilartothoseoftwo-towersuspensionbridges.Thevertical,lateralandtorsionalstiffnessofthesteelboxgirderhavedifferenteffectsonthedynamiccharacteristicsoftriple-towersuspensionbridges.Theelasticre-straintshaveamoresignificanteffectonthedynamiccharacteristicsthanthecentralbuckle,anddecreasingthestiffnessoftheelasticrestraintsresultsintheappearanceofalongitudinalfloatingvibrationmodeofthebridge.Also,rigidcentralbuckleshaveagreaterinfluenceonthedynamiccharacteristicsoftriple-towersuspensionbridgesthanonthoseoftwo-towersuspensionbridges.Theresultsobtainedcouldserveasavaluablenumericalreferenceforanalyzinganddesigningsuper-long-spantriple-towersuspensionbridges.
简介:HierarchicalporousTiO2nanopillsweresynthesizedusingatitaniummetal-organicframeworkMIL-125(Ti)asprecursor.Theas-synthesizedTiO2nanopillsownedalargespecificsurfaceareaof102m2/ganduniqueporousstructure.Furthermore,theobtainedTiO2nanopillswereappliedasanodematerialsforNa-ionbatteriesforthefirsttime.Theas-synthesizedTiO2nanopillsachievedahighdischargecapacityof196.4mAh/gatacurrentdensityof0.1A/g.Adischargecapacityof115.9mAh/gwasobtainedatahighcurrentdensityof0.5A/gandthecapacityretentionwasremainedashighas90%evenafter3000cycles.Theexcellentelectrochemicalperformancecanbeattributedtoitsuniquehierarchicalporousfeature.