A rise of the acoustic absorption in correspondence with the freezing of the Cu2+ spins into the cluster spin glass state has been identified with the fluctuations of the walls between the antiferromagnetic spin clusters, pinned by the Sr dopants. The depinning of the stripes is identified with an additional absorption maximum around View the MathML source, whose intensity and effective activation energy (identified with the pinning barrier) exhibit a dependence on doping consistent with pinning and stripe strain interaction being mediated by the octahedral tilts.
Cluster spin glass phase and charge stripe fluctuations in the high-Tc superconductor La2-xSrxCuO4
Cordero F.;Paolone A.;
2004
Abstract
A rise of the acoustic absorption in correspondence with the freezing of the Cu2+ spins into the cluster spin glass state has been identified with the fluctuations of the walls between the antiferromagnetic spin clusters, pinned by the Sr dopants. The depinning of the stripes is identified with an additional absorption maximum around View the MathML source, whose intensity and effective activation energy (identified with the pinning barrier) exhibit a dependence on doping consistent with pinning and stripe strain interaction being mediated by the octahedral tilts.File in questo prodotto:
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