Suppression of the charge-density-wave state in Sr_14Cu_24O_41 by calcium doping

B. Gorshunov; B. Korin-Hamzic; J. Akimitsu; M. Dressel; P. Haas; S. Tomic; T. Nagata; T. Room; T. Sasaki; T. Vuletic

arxiv: cond-mat/0305159 · v2 · pith:INKYBKAVnew · submitted 2003-05-08 · ❄️ cond-mat.supr-con · cond-mat.str-el

Suppression of the charge-density-wave state in Sr₁4Cu₂4O₄1 by calcium doping

T. Vuletic , B. Korin-Hamzic , S. Tomic , B. Gorshunov , P. Haas , T. Room , M. Dressel , J. Akimitsu

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T. Sasaki T. Nagata

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classification ❄️ cond-mat.supr-con cond-mat.str-el

keywords calciumdopingladderphasespectroscopysuppressiontransitionaltogether

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The charge response in the spin chain/ladder compound Sr_14-xCa_xCu_24O_41 is characterized by DC resistivity, low-frequency dielectric spectroscopy and optical spectroscopy. We identify a phase transition below which a charge-density wave (CDW) develops in the ladder arrays. Calcium doping suppresses this phase with the transition temperature decreasing from 210 K for x=0 to 10 K for x=9, and the CDW gap from 130 meV down to 3 meV, respectively. This suppression is due to the worsened nesting originating from the increase of the inter-ladder tight-binding hopping integrals, as well as from disorder introduced at the Sr sites. These results altogether speak in favor of two-dimensional superconductivity under pressure.

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Suppression of the charge-density-wave state in Sr₁4Cu₂4O₄1 by calcium doping

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