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标题：Giant Electron-Phonon Anomaly in Doped <svg style="vertical-align:-4.50008pt;width:83.050003px;" id="M1" height="20.887501" version="1.1" viewBox="0 0 83.050003 20.887501" width="83.050003" xmlns="http://www.w3.org/2000/svg"> <g transform="matrix(1.25,0,0,-1.25,0,20.8875)"> <g transform="translate(72,-55.29)"> <text transform="matrix(1,0,0,-1,-71.95,59.83)"> <tspan style="font-size: 17.93px; " x="0" y="0">L</tspan> <tspan style="font-size: 17.93px; " x="10.957063" y="0">a</tspan> </text> <text transform="matrix(1,0,0,-1,-53.03,55.34)"> <tspan style="font-size: 12.55px; " x="0" y="0">2</tspan> </text> <text transform="matrix(1,0,0,-1,-46.26,59.83)"> <tspan style="font-size: 17.93px; " x="0" y="0">C</tspan> <tspan style="font-size: 17.93px; " x="11.961311" y="0">u</tspan> <tspan style="font-size: 17.93px; " x="20.927811" y="0">O</tspan> </text> <text transform="matrix(1,0,0,-1,-12.38,55.34)"> <tspan style="font-size: 12.55px; " x="0" y="0">4</tspan> </text> </g> </g> </svg>and Other Cuprates
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作者：D. Reznik
期刊名称：Advances in Condensed Matter Physics
印刷版ISSN：1687-8108
电子版ISSN：1687-8124
出版年度：2010
卷号：2010
DOI：10.1155/2010/523549
出版社：Hindawi Publishing Corporation
摘要：Since conventional superconductivity is mediated by phonons, their role in the mechanism of high temperature superconductivity has been considered very early after the discovery of the cuprates. The initial consensus was that phonons could not produce transition temperatures near 100 K, and the main direction of research focused on nonphononic mechanisms. Subsequent work last reviewed by L. Pintschovius in 2005 showed that electron-phonon coupling in the cuprates is surprisingly strong for some phonons and its role is controversial. Experiments performed since then identified anomalous behavior of certain Cu–O bond-stretching phonons in cuprates as an important phenomenon that is somehow related to the mechanism of superconductivity. A particularly big advance was made in the study of doped La2CuO4. This work is reviewed here.