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182Os核yrast带结构SU(3)→U(5)→SU(3)形状相变的有序性研究

童红 张春梅 石筑一 汪红 倪绍勇

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182Os核yrast带结构SU(3)→U(5)→SU(3)形状相变的有序性研究

童红, 张春梅, 石筑一, 汪红, 倪绍勇

Nuclear shape phase transition SU(3)→U(5)→SU(3) of the yrast-band structure in 182Os from nucleonic order

Tong Hong, Zhang Chun-Mei, Shi Zhu-Yi, Wang Hong, Ni Shao-Yong
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  • 对于发生在同一个原子核中的转动诱导发生基准态结构的量子相变,可以理解为一种从高有序激发模式向着低有序激发模式的演化:被布居到高角动量态的高有序激发核,以E2跃迁的方式先行退耦到yrast带,再退耦到共存区(或临界点)时释放了有序的结构能,诱发价核子对耦合强度改变,重新组合出低有序的激发模式基准态,实现了基准态结构的过渡.对核量子相变的这种描述,与朗道经典热相变理论之间有了某些相似的术语和物理内涵.本文把这种理解推广到了相继的二次相变中.以182Os 核为例作了说明,并展
    That quantum phase transition (QPT) that occurs at the same nucleus causing the change of the basic state by rotation can be understood as an evolution from a higher-ordered and high-excitation model to another lower-ordered and high-excitation one, which implies a nucleus populated at high-momentum state decoupling firstly to the yrast-band with some E2-trasitions mode, then to the coexist region (or critical point), wherein the structure-energy is released. The change of the nucleon coupling intensity is caused, finally the basic state of the lower-ordered excitation model is reconstructed, the evolution of basic states structure is accomplished. This description of nuclear QPTs has endowed them with some similar to Landau’s classical quantum thermal phase transition in terminology and physical significance. This standpoint is generalized into the phase transitions that occur at the same nucleus one after an other. As an example, for the 182Os nucleus, the problem is discussed carefully, and the enhanced sensitivity of nuclear binging energy to collective structure is demonstrated.
    • 基金项目: 贵州省科技厅自然科学项目(批准号:黔科合J字: [2009]2071号)资助课题.
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  • [1]

    [1]Iachello F 2000 Phys. Rev. Lett. 85 3580

    [2]

    [2]Iachello F 2001 Phys. Rev. Lett. 87 05250

    [3]

    [3]Jolie J, Casten R F, Brentano P von, Werner V 2001 Phys. Rev. Lett. 87 162501

    [4]

    [4]Casten R. F 2006 Nature Physics 2 811

    [5]

    [5]Jolie J, Casten R F 2005 Nuclear Physics News 15 20

    [6]

    [6]Niksic T, Vretenar D, Lalazissis G A, Ring P 2007 Phys. Rev. Lett. 99 092502

    [7]

    [7]Leviatan A 2007 Phys. Rev. Lett. 98 242502

    [8]

    [8]Regan P H, Beausang C W, Zarmfir N V 2003 Phys. Rev. Lett. 90 152502

    [9]

    [9]Meng J, Zhang W, Zhou S G, Toki H, Geng L S 2003 arXiv nucl-th/0312055v1

    [10]

    ]Zhang Y, Hou Z F, Liu Y X 2007 Phys. Rev. C 76 011305

    [11]

    ]Liu Y X, Mu L Z, Wei H Q 2006 Phys. Lett. B 633 49

    [12]

    ]Liu M L 2007 Phys. Rev. C 76 054304

    [13]

    ]Shen S F, Chen Y B, Xu F R, Zheng S J, Tang B, Wen T D 2007 Phys. Rev. C 75 047304

    [14]

    ]Leviatan A, Iachello F 2008 arXiv nucl-th/0812.4034v1

    [15]

    ]Yang S, Philip M. Walker, Xu F R, Liu U X 2008 Phys. Lett. B 659 165

    [16]

    ]Shi Z Y, Tong H, Shi Z Ya, Zhang C M, Zhao X Z, Ni S Y 2007 Acat Phys. Sin. 56 1329 (in Chinese)[石筑一、童红、 石筑亚、 张春梅、 赵行知、 倪绍勇 2007 56 1329]

    [17]

    ]Shi Z Y, Zhang C M, Tong H, Zhao X Z, Ni S Y 2008 Acta Phys. Sin. 57 1564 (in Chinese) [石筑一、 张春梅、 童红、 赵行知、 倪绍勇 2008 57 1564]

    [18]

    ]Wang H, Zhang H, Shi Z Y, Lei Y X, Tong H, 2008 Journal of Southwest University(Natural Science Edition)  30 48 (in Chinese) [汪红、 张欢、 石筑一、 雷玉玺, 童红 2008 西南大学学报(自然科学版) 30  48]

    [19]

    ]Shi Z Y, Tong H, Zhang H, Wang H, Lei Y X, Zhao X Z, NI S Y 2009 Acta Phys. Sin. 58  (in Chinese)[石筑一、 童红、 张欢、 汪红、 雷玉玺、 赵行知、 倪绍勇 2009 58][20]Yang Z S, Liu Y, Qi H 1984 Nucl. Phys. A 421 297

    [20]

    ]Yang Z S, Liu Y, Tian X Q 1982 High Energy Phys.  & Nucl Phys. 6 472 (in Chinese) [杨泽森、 刘庸、 田晓岑 1982 高能物理与核物理  6  472][22]Liu Y, Shi Z Y, Dan H J, Sang J P 1995 Chinese Journal of Nuclear Physics 17 194

    [21]

    ]Shi Z Y, Liu Y, Sang J P 2000 Chin. Phys. 9  9

    [22]

    ]Shi Z Y, Liu Y, Sang J P 2001 Chin. Phys. 10 282

    [23]

    ]Shi Z Y, Zhao X Z, Tong H 2003 Chin. Phys.  12 732

    [24]

    ]Shi Z Y, Ni S Y, Tong H, Zhao X Z 2004 Acta Phys. Sin. 53 734 (in Chinese) [石筑一、 倪绍勇、 童红、 赵行知 2004 53 734][27]Chu S Y, Nordberg H, Firestone R B, Ekstrm L P 2005 Isotope Explorer 3.0 //ie.lbl.gov/toi.htm.

    [25]

    ]Pattison L K, Cullen D M, Smith J F, Fletcher A M, Walker P M, El-Masri H M, Podolyak Z, Wood R J, Scholey C, Wheldon C, Mukherjee G, Balabanski D, Djongolov M, Dalsgaard T, Thisgaard H, Sletten G, Kondev F, Jenkins D, Lane G J, Lee I Y, Macchiavelli A O, Frauendorf S, Almehed D 2003 Phys. Rev. Lett. 91 182501

    [26]

    ]Tandel U S, Tandel S K, Chowdhury P, Cline D, Wu CY, Carpenter M P, Janssens R V F, Khoo T L, Lauritsen T, Lister C J, Seweryniak D, Zhu S 2008 Phys. Rev. Lett. 101 182503

    [27]

    ]Goodman A L 1999 Phys. Rev. C 60 014311

    [28]

    ]Kaneko K, Hasegawa M, Mizusaki T 2002 Phys. Rev. C 66 051306(R)

    [29]

    ]Landau L D, Lifshitz E M 1980 Statistical Physics Part 1 (3rd Edition Oxford: Pergamon Press.) p.257—260, p.446—516

    [30]

    ]Wang Z C 2003 Thermodynamics and statistical physics (3rd ed. Beijing: Higher education press.) 132—140. (in Chinese)

    [31]

    ]Cakirli R B, Casten R F, Winkler R, Blaum K, Kowalska M. 2009 Phys. Rev. Lett. 102 082501

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出版历程
  • 收稿日期:  2009-03-09
  • 修回日期:  2009-08-06
  • 刊出日期:  2010-05-15

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