Home > Publications database > Inverse Melting of an Electronic Liquid Crystal > print

001     172057
005     20210129214351.0
024 7 _ |a arXiv:1410.6886
|2 arXiv
024 7 _ |a 2128/10215
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024 7 _ |a altmetric:2814126
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037 _ _ |a FZJ-2014-05606
100 1 _ |a Lee, Shu-Han
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245 _ _ |a Inverse Melting of an Electronic Liquid Crystal
260 _ _ |c 2014
336 7 _ |a Preprint
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336 7 _ |a Electronic Article
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336 7 _ |a ARTICLE
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500 _ _ |a 7 pages, 7 figures
520 _ _ |a Inverse melting refers to the rare thermodynamic phenomenon in which a solid melts into a liquid upon cooling, a transition that can occur only when the ordered (solid) phase has more entropy than the disordered (liquid) phase, and that has so far only been observed in a handful of systems. Here we report the first experimental observation for the inverse melting of an electronic liquid crystalline order in strontium-doped lanthanum nickelate, a compound isostructural with the superconducting cuprates, with a hole doping concentration of 1/3. Using x-ray scattering, we demonstrate that the isotropic charge modulation is driven to nematic order by fluctuating spins and shows an inverse melting transition. Using a phenomenological Landau theory, we show that this inverse melting transition is due to the interlayer coupling between the charge and spin orders. This discovery points to the importance of the interlayer correlations in the system, and provides a new perspective to study the intricate nature of the electronic liquid crystal phases in strongly correlated electronic systems, including possibly the Cu- and Fe-based high-Tc superconductors.
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650 2 7 |a Condensed Matter Physics
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700 1 _ |a Lai, Yen-Chung
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700 1 _ |a Du, Chao-Hung
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700 1 _ |a Kao, Ying-Jer
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700 1 _ |a Siegenfeld, Alexander F.
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700 1 _ |a Hatton, Peter D.
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700 1 _ |a Prabhakaran, D.
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700 1 _ |a Su, Yixi
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700 1 _ |a Huang, Di-Jing
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