000026677 001__ 26677
000026677 005__ 20140130015446.0
000026677 037__ $$9arXiv$$anucl-ex/0410017$$cnucl-ex
000026677 035__ $$9arXiv$$zoai:arXiv.org:nucl-ex/0410017
000026677 035__ $$9SPIRESTeX$$zKarnaukhov:2004xv
000026677 100__ $$aKarnaukhov, V.A.$$uDubna, JINR
000026677 245__ $$aSpinodal decomposition, nuclear fog and two characteristic volumes in thermal multifragmentation
000026677 246__ $$9arXiv$$aSpinodal decomposition, nuclear fog and two characteristic volumes in thermal multifragmentation
000026677 269__ $$c2004-10
000026677 300__ $$a8
000026677 520__ $$aThermal multifragmentation of hot nuclei is interpreted as the nuclear liquid-fog phase transition inside the spinodal region. The experimental data for p(8.1GeV) + Au collisions are analyzed within the framework of the statistical multifragmentation model (SMM) for the events with emission of at least two IMFs. It is found that the partition of hot nuclei is specified after expansion to a volume equal to Vt = (2.6+-0.3) Vo, with Vo as the volume at normal density. However, the freeze-out volume is found to be twice as large: Vf = (5+-1) Vo.
000026677 65017 $$2INSPIRE$$aExperiment-Nucl
000026677 690C_ $$2INSPIRE$$aConference Paper
000026677 690C_ $$2INSPIRE$$aPublished
000026677 700__ $$aOeschler, H.$$uDarmstadt, Tech. Hochsch.
000026677 700__ $$aAvdeyev, S.P.$$uDubna, JINR
000026677 700__ $$aRodionov, V.K.$$uDubna, JINR
000026677 700__ $$aKirakosyan, V.V.$$uDubna, JINR
000026677 700__ $$aSimonenko, A.V.$$uDubna, JINR
000026677 700__ $$aRukoyatkin, P.A.$$uDubna, JINR
000026677 700__ $$aBudzanowski, A.$$uCracow, INP
000026677 700__ $$aKarcz, W.$$uCracow, INP
000026677 700__ $$aSkwirczynska, I.$$uCracow, INP
000026677 700__ $$aKuzmin, E.A.$$uKurchatov Inst., Moscow
000026677 700__ $$aChulkov, L.V.$$uKurchatov Inst., Moscow
000026677 700__ $$aNorbeck, E.$$uIowa U.
000026677 700__ $$aBotvina, A.S.$$uMoscow, INR
000026677 773__ $$a10.1016/j.nuclphysa.2004.12.009$$c65-72$$pNucl.Phys.$$vA749$$y2005
000026677 773__ $$wC04/08/23
000026677 8564_ $$uhttp://dx.doi.org/10.1016/j.nuclphysa.2004.12.009$$w10.1016/j.nuclphysa.2004.12.009$$yDOI
000026677 909CO $$ooai:jdsweb.jinr.ru:26677$$pglobal
000026677 961__ $$x2004-10-14
000026677 961__ $$c2006-03-27
000026677 970__ $$aSPIRES-6018688
000026677 980__ $$aConference
000026677 980__ $$aPublished
000026677 980__ $$aarXiv
000026677 980__ $$aCiteable
000026677 999C5 $$sPhys.Rept.,257,133
000026677 999C5 $$sRept.Prog.Phys.,53,605
000026677 999C5 $$sNucl.Phys.,A264,221
000026677 999C5 $$sPhys.Rev.,C27,2782
000026677 999C5 $$sNature,305,410
000026677 999C5 $$sNucl.Phys.,A428,189
000026677 999C5 $$rnucl-th/0005036$$sPhys.Rev.,C62,044320
000026677 999C5 $$rnucl-ex/0311010$$sNucl.Phys.,A734,487
000026677 999C5 $$rnucl-ex/0311016$$sNucl.Phys.,A734,495
000026677 999C5 $$sNucl.Phys.,A700,457
000026677 999C5 $$rnucl-ex/0310009$$sNucl.Phys.,A734,520
000026677 999C5 $$rnucl-th/9404029$$sPhys.Lett.,B335,1
000026677 999C5 $$rnucl-ex/0205005$$sPhys.Rev.,C66,031601
000026677 999C5 $$rnucl-ex/0104024$$sNucl.Phys.,A699,795
000026677 999C5 $$sPhys.Rev.,C70,1
000026677 999C5 $$sInstrum.Exp.Tech.,39,153
000026677 999C5 $$sNucl.Phys.,A519,463C
000026677 999C5 $$sPhys.Rev.Lett.,60,2125
000026677 999C5 $$rnucl-ex/0207001$$sNucl.Phys.,A709,392
000026677 999C5 $$sNucl.Phys.,2,70
000026677 999C5 $$sNucl.Phys.,A503,183
000026677 999C5 $$sNucl.Phys.,A512,345
000026677 999C5 $$rcond-mat/0212275$$sPhys.Rev.,C67,044610