As if the superconducting copper oxides weren't mysterious enough, experiments within the past decade have revealed a magnetic structure—at least in members of the lanthanum strontium copper oxide family—whose period is different from that of the underlying lattice. One explanation that has attracted increasing attention is the possibility that stripe phases may form spontaneously when experimenters dope these high critical‐temperature materials. According to this postulate, the added charges line up in rows in the copper oxide plane, sandwiching between them regions of copper atoms whose spins are aligned antiferromagnetically, with nearest neighbors having opposite spins. The repeat pattern of these spin regions is generally different from that of the crystal lattice, thus explaining the incommensurate peaks seen in diffraction studies.
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June 1998
June 01 1998
Are Stripes a Universal Feature of High‐ Superconductors?
Do the spins and charges associated with copper and oxygen atoms in high‐temperature superconductors arrange themselves in orderly rows in the copper oxide plane? Recent studies suggest that not just one but several families of the cuprates may feature such stripes, although in most cases the stripes are not static but fluctuate with time and position.
Physics Today 51 (6), 19–22 (1998);
Citation
Barbara Goss Levi; Are Stripes a Universal Feature of High‐ Superconductors?. Physics Today 1 June 1998; 51 (6): 19–22. https://doi.org/10.1063/1.882268
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