简介：WeconstructaclassofintegrablegeneralizationofTodamechanicswithlong-rangeinteractions.ThesesystemsareassociatedwiththeloopalgebrasL(Cr)andL(Dr)inthesensethattheirLaxmatricescanberealizedintermsofthec=0representationsoftheaffineLiealgebrasCr(1)andDr(1)andtheinteractionspatterninvolvedbearsthetypicalcharactersofthecorrespondingrootsystems.WepresenttheequationsofmotionandtheHamiltonianstructure.Thesegeneralizedsystemscanbeidentifiedunambiguouslybyspecifyingtheunderlyingloopalgebratogetherwithanorderedpairofintegers(n,m).Itturnsoutthatdifferentsystemsassociatedwiththesameunderlyingloopalgebrabutwithdifferentpairsofintegers(n1,m1)and(n2,m2)withn2＜n1andm2＜m1canberelatedbyanestedHamiltonianreductionprocedure.Forallnontrivialgeneralizations,theextracoordinatesbesidesthestandardTodavariablesarePoissonnon-commute,andwheneithernorm≥3,thePoissonstructurefortheextracoordinatevariablesbecomessomeLiealgebra(i.e.theextravariablesappearlinearlyontheright-handsideofthePoissonbrackets).Inthequantumcase,suchgeneralizationswillbecomesystemswithnoncommutativevariableswithoutspoilingtheintegrability.

简介：Ｓｔｕｄｙ　ｏｆ　Ｆｕｓｉｏｎ　ｗｉｔｈ　Ｂｉｎａｒｙ　Ｐｒｏｃｅｓｓ　ｉｎ　１６Ｏ＋４５Ｓｃ　ＲｅａｃｔｉｏｎＳｔｕｄｙｏｆＦｕｓｉｏｎｗｉｔｈＢｉｎａｒｙＰｒｏｃｅｓｓｉｎ１６Ｏ＋４５ＳｃＲｅａｃｔｉｏｎ￥ＷａｎｇＳｈｕｆａｎ...

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简介：甲醛是一种具有刺激性气味的无色气体，也是一种潜在的致癌物质，对人体的健康有较大危害。它主要来源于工业制造树脂、人造纤维、胶合板等。因此，甲醛是室内空气污染的主要因素，也是室内空气监测的必测项目。

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简介：Ｂｉｎａｒｙ　Ｒｅａｃｔｉｏｎ　Ｍｅｃｈａｎｉｓｍ　ｏｆ　２８Ｓｉ＋２４Ｍｇ　ａｔ　１５６．３　ＭｅＶＢｉｎａｒｙＲｅａｃｔｉｏｎＭｅｃｈａｎｉｓｍｏｆ２８Ｓｉ＋２４Ｍｇａｔ１５６．３ＭｅＶ￥ＷａｎｇＳｈｕｆａｎｇ；ＪｉｎＧｅｎｍ...

简介：Inthisreviewpaper,weintroduceaself-phasecontrolledstimulatedBrillouinscatteringphaseconjugatemirror(SCSBS-PCM)andtheKumganglaser.TheSC-SBS-PCMwasproposedanddemonstrateditssuccessattheacademiclowpowerlevel,~100mJ@10Hz.TheKumganglaserisunderdevelopmenttoverifywhethertheSC-SBS-PCMisoperableatthekWlevel.Itisa4kWbeamcombinationlasercombiningfour1kWbeamsusingtheSC-SBS-PCM.IftheKumganglaserfunctionssuccessfully,itwillbethemostimportantsteptowardsaDreamlaser,ahypotheticallaserwithunlimitedpowerandahighrepetitionrate.

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简介：TheLaboratoryforIntenseLasers（L2I）isaresearchcentreinopticsandlasersdedicatedtoexperimentalresearchinhighintensitylaserscienceandtechnologyandlaserplasmainteraction.Currentlythelaboratoryisundergoinganupgradewiththegoalofincreasingtheversatilityofthelasersystemsavailabletotheusers,aswellasincreasingthepulserepetitionrate.Inthispaperwereviewthecurrentstatusofthelaserresearchanddevelopmentprogrammeofthisfacility,namelytheupgradedcapabilityandtherecentprogresstowardstheinstallationofanultrashort,diode-pumpedOPCPAlasersystem.

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简介：Highlychargedions(HCIs)carryingamountofpotentialenergywillproducesomenewphysicalphenomenabecausethepotentialenergywillbedepositedintoaverysmallvolumewithinaveryshorttime.WewouldapplythecalorimetricmethodtostudytheenergydepositionofHCIs[1;2].Hereinweintroducethenewsetupforcalorimetricmeasurementforthepotentialenergydepositionofhighlychargedionsat320kVHighlyChargedIonsPhysicsExperimentalPlatform.Thesetupwasconstructedby3parts:theDewar,theelectricaltemperaturecontrollerandthemainpart.ThediamondtargetwasconnectedtotheLN2cooledheatsinkby4copperwiresandaPlatinumtemperaturesensorwasgluedtotherearsideofthetarget.AsshowninFig.1.

简介：Duringthepastyear,biophysicsgroupatInstituteofModernPhysics(IMP)obtainedlotsofachievementsintheresearchofheavy-ionmutationbreedingandproductionchainofsweetsorghum.Infundamentalresearchfield,amutantpopulationofArabidopsisthalianainducedbycarbonionbeamradiationwasestablishedinM2generation.Thetotalmutationratewas4.77%.Amutantmarked197#,whichhadfrostbite-like,palegreen,wrinkledandunevenleavesanddisplayedloosebractsandlatematuration,wasobtainedandreportedforthefirsttime.Generoughmappingresultsdemonstratedthatthereweretwomutationsitesinthe1stand4thchromosomeof197#mutant,indicatingheavyionradiationmightinducemorecomplicatedmutationsbeyondourcurrentrecognition.Thewholegenomeresequencingofthismutantisstillinprogress.Inaddition,high-yieldstrainsofmicrobeswhichhavepotentialvalueforcommercialapplication,suchasCorynebacteriumglutamicumandLacbobacillusthermophiles,werescreenedusingheavy-ionmutationtechnique.

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简介：Recently,theirradiationeffectsinnanomaterialshavebeenahottopicinnanoscience.Althoughirradiationinduceddamageshavebeenstudyingforalongtime,verylimitedresearchhasbeenperformedonthedamagesinducedbyMeV-energyheavyionsingoldnanowires(NWs).Inthiswork,wereportastudyoftheirradiationeffectsonsinglecrystallinegoldNWs,whicharefabricatedelectrochemicallyintheetchediontracktemplates.Theas-preparedgoldNWsontheAu/CusubstratewerecharacterizedbySEMafterdissolvingthepolycarbonate(PC)template,asshowninFig.1(a).GoldNWswithdiametersfrom20to90nmwerefabricatedtostudythesizedependenceofirradiationdamageinducedbytheheavyions.ToguaranteethatthedifferentNWscouldobtainthesameirradiationfluence,theNWswithdifferentdiametersweremixedtogetherandtransferredtotheTEMgrid,asshowninFig.1(b).

简介：Carbonsurfacewithlargeoxygenandcarbonratio(O/C)indicatedanoutstandingelectro-catalyticactivitytowardL-ascorbicacidoxidation,comparedtoplatinumgroupmetals.However,interrelationofsurfacefunctionalgroupsanditselectro-catalyticactivityisstillunclear.Inthispaper,weprepareddifferentlevelsofoxidizedcarbonsbyasimpleacidtreatmentandinvestigatedthecorrelationbetweenthesurfaceoxygenfunctionalgroupsofacid-treatedcarbonandelectro-catalyticactivityinanelectrooxidationofL-ascorbicacid.Positivelychargedcarbonwasdemonstratedbylonepairelectronofoxygenfromvalencebandspectrastudy.Itwasrevealedthatthepositivelychargedcarbon,especiallyinvolvedincarbonyl,showedenhancedtheelectro-catalyticactivitythroughbothbetteradsorptionofnegativelychargedreactantsandloweredLUMObyelectronegativityofoxygen.

简介：一新(2+1)维的格子方程被介绍在联合Toda格子和相对论的Toda格子(TL-RTL)的层次在开始的二个成员之上基于方程在(1+1)尺寸。为联合TL-RTLequations的层次的Darboux转变被构造。在联合TL-RTLequations的层次的开始的二个成员的答案，以及新(2+1)维的格子方程被theDarboux明确地获得转变。

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简介：以Xilinx公司的28nm系统级芯片（system-on-chip,SoC）Zynq-7000为研究对象,开展了α单粒子效应实验和低能质子单粒子效应实验,测得了系统级芯片的α单粒子效应敏感模块、单粒子效应截面及不同模块质子单粒子效应截面随能量变化的关系曲线。采用软件故障注入技术获得了系统级芯片多个功能单元的敏感单元以及故障表现类型,并且通过建立系统芯片软错误故障树,定量计算了系统芯片及其各功能单元的故障率和不可用度,确定了系统和子系统中的敏感模块。

简介：AnewgeneralizedJacobiellipticfunctionmethodisusedtoconstructtheexacttravellingwavesolutionsofnonlinearpartialdifferentialequations(PDEs)inaunifiedway.Themainideaofthismethodistotakefulladvantageoftheellipticequationwhichhasmorenewsolutions.Morenewdoublyperiodicandmultiplesolitonsolutionsareobtainedforthegeneralized(3+1)-dimensionalKronig-Penny(KP)equationwithvariablecoefficients.Thismethodcanbeappliedtootherequationswithvariablecoefficients.