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Suppression of antiferromagnetic spin fluctuation in Zn-substituted YBa2Cu3O7 |
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| Authors: | T. K. Park B. J. Mean K. H. Lee S. W. Seo K. S. Han D. H. Kim Moohee Lee H. S. Lee H. B. Kim W. C. Lee Joung-Sook Cho |
| Affiliation: | a Department of Physics, Konkuk University, 93-1 Mo-Jin-Dong Kwang-Jin-Ku, Seoul 143-701, South Korea b Department of Physics, Sook-Myung Women's University, Seoul 140-742, South Korea c Department of Information Communications, Suwon Science College, Kyong-Ki 445-960, South Korea |
| Abstract: | We have prepared Zn-substituted YBa2Cu3−xZnxO7 (YBCO, x=0.0–0.09) and performed 63,65Cu nuclear quadrupole resonance (NQR) measurements for the plane site at 300 and 100 K as a function of Zn concentration. The substitutional effects are observed in resonant frequencies and linewidths of spectra, and relaxation times as well as in the superconducting transition temperature. The spin–lattice relaxation rate 1/T1 is reduced for the higher Zn concentration and the reduction is more significant at 100 K. The ratio of 63,65Cu spin–lattice relaxation rates suggests that a magnetic contribution due to the antiferromagnetic spin fluctuation becomes weak as the Zn concentration increases. These effects confirm that the antiferromagnetic spin fluctuation of Cu 3d spins is suppressed by the Zn substitution due to the absence of local moment at the zinc site. |
| Keywords: | Substitution effects NQR Spin–lattice relaxation time T1 |
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