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自旋派尔斯链热力学性质研究
引用本文:江学范. 自旋派尔斯链热力学性质研究[J]. 常熟理工学院学报, 2005, 19(2): 28-32
作者姓名:江学范
作者单位:常熟理工学院,物理与电子科学系,江苏,常熟,215500
基金项目:This work was supported by the National Science Foundation of Jiangsu Educational Department,,
摘    要:结合热相干态近似和玻色化技术,扩展应用量子自洽理论讨论了低温下自旋派尔斯链的磁性激发和热力学性质。研究发现自旋激发能隙随温度升高而单调下降,于派尔斯相变点(TP)消失,在TP附近,比热随温度升高而迅速增强。TP的标度关系符合TP∝δ(0)^0.66。

关 键 词:磁性激发  热力学性质  spin-Peierls链  能隙
文章编号:1008-2794(2005)02-0028-05
修稿时间:2005-02-24

Thermodynamic properties in spin-Peierls chain
JIANG Xue-fan. Thermodynamic properties in spin-Peierls chain[J]. Journal of Changshu Institute of Technology, 2005, 19(2): 28-32
Authors:JIANG Xue-fan
Abstract:Combining the thermal coherent states with the bosonization technique,we develop a self-consistent quantum approach to investigate the dimerized antiferromagnetic Heisenberg chain at finite temperature. In the case of weak dimerization, temperature dependences of the magnetic excited energy gap and the specific heat are calculated analytically. The energy gap monotonically decreases with increasing temperature until it vanishes at the Peierls transition temperature Tp. The specific heat is strongly enhanced near Tp. It is also found that there is a scaling behavior of Tp as a function of the zero-temperature dimerization δ0 as Tp∝δ0v with v = 0.66 for small δ0. Our results are qualitatively consistent with experimental data observed in CuGeO3.
Keywords:Thermodynamic properties  Spin-Peierls chain  energy gap
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