000027755 001__ 27755
000027755 005__ 20140130015733.0
000027755 037__ $$9arXiv$$anucl-th/0502018$$cnucl-th
000027755 035__ $$9arXiv$$zoai:arXiv.org:nucl-th/0502018
000027755 035__ $$9SPIRESTeX$$zAritomo:2005fw
000027755 100__ $$aAritomo, Y.$$uDubna, JINR
000027755 245__ $$aAnalysis of fusion-fission dynamics by pre-scission neutron emission in Ni-58 + Pb-208
000027755 246__ $$9arXiv$$aAnalysis of fusion-fission dynamics by pre-scission neutron emission in $^{58}$Ni+$^{208}$Pb
000027755 269__ $$c2005-02
000027755 300__ $$a18
000027755 520__ $$aWe analyzed the experimental data of the pre-scission neutron multiplicity in connection with fission fragments in the reaction $^{58}$Ni+$^{208}$Pb at the incident energy corresponding to the excitation energy of compound nucleus $E^{*}$=185.9 MeV, which was performed by D\'{e}MoN group. The relation between the pre-scission neutron multiplicity and each reaction process having different reaction time is investigated. In order to study the fusion-fission process accompanied by neutron emission, the fluctuation-dissipation model combined with a statistical model is employed. It is found that the fusion-fission process and the quasi-fission process are clearly distinguished in correlation with the pre-scission neutron multiplicity.
000027755 65017 $$2INSPIRE$$aTheory-Nucl
000027755 6531_ $$9author$$aSuperheavy elements
000027755 6531_ $$9author$$aFluctuation-dissipation dynamics
000027755 6531_ $$9author$$aFusion-fission process
000027755 6531_ $$9author$$aQuasi-fission process
000027755 6531_ $$9author$$aPre-scission neutron multiplicity
000027755 690C_ $$2INSPIRE$$aPublished
000027755 700__ $$aOhta, M.$$uKonan U.
000027755 700__ $$aMaterna, T.$$uBrussels U.
000027755 700__ $$aHanappe, F.$$uBrussels U.
000027755 700__ $$aDorvaux, O.$$uStrasbourg, IReS
000027755 700__ $$aStuttge, L.$$uStrasbourg, IReS
000027755 773__ $$a10.1016/j.nuclphysa.2005.05.155$$c309-326$$pNucl.Phys.$$vA759$$y2005
000027755 8564_ $$uhttp://dx.doi.org/10.1016/j.nuclphysa.2005.05.155$$w10.1016/j.nuclphysa.2005.05.155$$yDOI
000027755 909CO $$ooai:jdsweb.jinr.ru:27755$$pglobal
000027755 961__ $$x2005-02-07
000027755 961__ $$c2005-10-18
000027755 970__ $$aSPIRES-6124291
000027755 980__ $$aPublished
000027755 980__ $$aArxiv
000027755 980__ $$aCiteable
000027755 980__ $$a
000027755 999C5 $$sNucl.Phys.,A744,3
000027755 999C5 $$sNucl.Phys.,A656,259
000027755 999C5 $$sZ.Phys.,251,431
000027755 999C5 $$sZ.Phys.,A288,383
000027755 999C5 $$sAnnals Phys.,113,330
000027755 999C5 $$sNucl.Phys.,A428,161
000027755 999C5 $$sRept.Prog.Phys.,50,915
000027755 999C5 $$sPhys.Rev.,C20,992
000027755 999C5 $$sSov.J.Nucl.Phys.,21,255
000027755 999C5 $$sAddendum-ibid.,556,281
000027755 999C5 $$sNucl.Phys.,A231,45
000027755 999C5 $$sNucl.Phys.,A372,141
000027755 999C5 $$sProg.Theor.Phys.,55,115
000027755 999C5 $$sNucl.Phys.,A734,184
000027755 999C5 $$sInt.J.Mod.Phys.,E13,258