Enhancement of the Peierls-like phase transition in the Cu1−xLixIr2S4 system

Lei Zhang; Langsheng Ling; Zhe Qu; Changjin Zhang; Shun Tan; Yuheng Zhang

doi:10.1209/0295-5075/94/37003

Enhancement of the Peierls-like phase transition in the Cu_1−xLi_xIr₂S₄ system

Lei Zhang¹, Langsheng Ling¹, Zhe Qu¹, Changjin Zhang¹, Shun Tan² and Yuheng Zhang^1,2

Published 14 April 2011 • Europhysics Letters Association
Europhysics Letters, Volume 94, Number 3 Citation Lei Zhang et al 2011 EPL 94 37003 DOI 10.1209/0295-5075/94/37003

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¹ High Magnetic Field Laboratory, Chinese Academy of Sciences - Hefei 230031, PRC

² High Magnetic Field Laboratory, University of Science and Technology of China - Hefei 230026, PRC

Dates

Received 8 March 2011
Accepted 30 March 2011
Published 14 April 2011

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Abstract

In the spinel CuIr₂S₄ system, previous reports have shown that any chemical substitution would suppress or destroy the Peierls-like phase transition. Herein, we present our investigations on the Cu_1−xLi_xIr₂S₄ system, where the Peierls-like phase transition is enhanced by the doping of Li. To our knowledge, this is the first report that the phase transition is enhanced by chemical substitution. Through low-temperature X-ray diffraction study, we find that the lattice cell is distorted by the doping of Li, which favors the tetragonal structure in the low-temperature Peierls-like phase. We suggest that the lattice distortion caused by the Li-doping is responsible for the enhancement of the phase transition.

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