ELECTRICAL-RESISTIVITY AND LOW-TEMPERATURE SPECIFIC-HEAT MEASUREMENTS OF SINGLE-CRYSTALS OF THIOSPINEL CUV2S4

被引:33
|
作者
HAGINO, T
SEKI, Y
TAKAYANAGI, S
WADA, N
NAGATA, S
机构
[1] HOKKAIDO KYOUIKU UNIV,DEPT PHYS,SAPPORO 002,JAPAN
[2] UNIV TOKYO,COLL ARTS & SCI,DEPT PHYS,TOKYO 153,JAPAN
来源
PHYSICAL REVIEW B | 1994年 / 49卷 / 10期
关键词
D O I
10.1103/PhysRevB.49.6822
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Zero-field and magnetic-field low-temperature specific-heat measurements have been carried out on single crystals of CuV2S4. The electronic-specific-heat coefficient (in zero field) is found to be 62 mJ/mol K2 and the Debye temperature to be 205 K. A superconducting transition at 4.0 K has been reported in powder samples contaminated by an estimated 5 to 10 % sulvanite Cu3VS4. Present experiments of the electrical resistivity and the specific heat, however, verify that high-quality single crystals do not exhibit a superconducting transition above 60 mK. Below 0.2 K, nuclear specific heat is observed. Applied magnetic fields increase the magnitude of the specific heat due to the nuclear Zeeman effect of V and Cu nuclei and the electric quadrupole interaction of Cu nuclei. The electric-field gradient at Cu nuclei is estimated to be eq = 1. 74 X 10(22) V/m2. Detailed analysis of the nuclear specific heat below 1.0 K is presented. A comparison of the theoretical analysis with the experimental result is given and are in excellent agreement.
引用
收藏
页码:6822 / 6828
页数:7
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