Nonadditivity in moments of inertia of high-K multiquasiparticle bands

Nonadditivity in moments of inertia of high-K multiquasiparticle bands

导出

摘要 The experimental high-K 2- and 3-quasiparticle bands of well deformed rare-earth nuclei are analyzed. It is found that there exists significant nonadditivity in moments of inertia （MOIs） for these bands. The microscopic mechanism of the rotational bands is investigated by the particle number conserving （PNC） method in the frame of cranked shell model with pairing, in which the blocking effects are taken care of exactly. The experimental rotational frequency dependence of these bands is well reproduced in PNC calculations. The nonadditivity in MOIs originates from the destructive interference between Pauli blocking effects. The experimental high-K 2- and 3-quasiparticle bands of well deformed rare-earth nuclei are analyzed. It is found that there exists significant nonadditivity in moments of inertia （MOIs） for these bands. The microscopic mechanism of the rotational bands is investigated by the particle number conserving （PNC） method in the frame of cranked shell model with pairing, in which the blocking effects are taken care of exactly. The experimental rotational frequency dependence of these bands is well reproduced in PNC calculations. The nonadditivity in MOIs originates from the destructive interference between Pauli blocking effects.

作者张振华吴熙雷奕安曾谨言

机构地区 School of Physics

出处《Chinese Physics C》 SCIE CAS CSCD 北大核心 2008年第9期681-686,共6页 中国物理C（英文版）

基金 National Natural Science Foundation of China (10675006,10675007,10435010)

关键词 particle-number-conserving method BCS theory nuclear moments of inertia particle-number-conserving method, BCS theory, nuclear moments of inertia

分类号 O571 [理学—粒子物理与原子核物理]

引文网络
相关文献

参考文献10

1Hayes A B et al. Physical Review Letters . 2002
2Richardson R W. Physical Review . 1966
3Rowe D J.Nuclear Collective Motion[]..1974
4ZENG J Y,JIN T H,ZHAO Z J. Physical Review C Nuclear Physics . 1994
5XIN X B,LIU S X,LEI Y A,ZENG J Y. Physical Review C Nuclear Physics . 2000
6WU C S,ZENG J Y. Physical Review C Nuclear Physics . 1989
7LIU S X,ZENG J Y,ZHAO E G. Physical Review C Nuclear Physics . 2002
8Nilsson S G et al. Nuclear Physics A . 1969
9Baktash C,Garrett J D,Winchell D F,Smith A. Physical Review Letters . 1992
10Bohr A,Mottelson B R,Nuclear Structure.M][]..1975

1WANG Ru,NGANSO DJANTENG Sandrine,KAABOUCHI EI Aziz,WANG Qiuping Alexandre.Investigation of an energy nonadditivity for nonextensive systems[J].Chinese Science Bulletin,2011,56(34):3661-3665. 被引量：1
2陈永静,陈永寿,等.Pairing Field and Moments of Inertia of Superdeformed Nuclei[J].Chinese Physics Letters,2002,19(12):1771-1774.
3CHEN Yong-jing, CHEN Yong-shou.Pairing Field and Moments of Inertia of Superdeformed Nuclei[J].Annual Report of China Institute of Atomic Energy,2002(0):22-22.
4Chen Xing-qu Xing Zheng (Department of Modern Physics,Lanzhou University,Lanzhou 730000).Calculations of Superdeformed Bands in j_(15/2^-)Model[J].Chinese journal of nuclear physics,1994(3):233-238.
5WANG Shu-nuan.BAR-MOM Code and Its Application[J].Annual Report of China Institute of Atomic Energy,2001(0):61-61.
6YUShao－Ying,HEXiao－Tao.Microscopic Mechanism of the ω Variation in Moments of Inertia for the Yrast Superdeformed Bands ^194T1（1a,1b）[J].Communications in Theoretical Physics,2002,37(3):351-354.
7雷奕安,林纯镇,曾谨言.Difference in moments of inertia and paring interaction strength in superdeformed nuclei[J].Science China Mathematics,1997,40(6):652-657.
8Chen Xingqu Xing Zheng (Department of Modern Physics Lanzhou University.Lanzhou 730000).Analysis of Superdeformed Band of ^(193)TI[J].Chinese journal of nuclear physics,1994(1):50-54.
9吴崇试,曾谨言.INTRINSIC STRUCTURE OF CRANKING SHELL MODEL WAVE FUNCTIONS AND THE NUCLEAR PAIRING PHASE TRANSITION[J].Chinese Science Bulletin,1988,33(11):901-905.
10陈星渠,邢正.Band structure of superdeformed bands in odd-A Hg nuclei[J].Science China Mathematics,1997,40(4):400-407.

Chinese Physics C

2008年第9期

浏览历史

内容加载中请稍等...

Nonadditivity in moments of inertia of high-K multiquasiparticle bands

参考文献10

相关作者

相关机构

相关主题

浏览历史