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論文

Maximizing $$T_c$$ by tuning nematicity and magnetism in FeSe$$_{1-x}$$S$$_x$$ superconductors

松浦 康平*; 水上 雄太*; 新井 佑基*; 杉村 優一*; 前島 尚行*; 町田 晃彦*; 綿貫 徹*; 福田 竜生; 矢島 健*; 広井 善二*; et al.

Nature Communications (Internet), 8, p.1143_1 - 1143_6, 2017/10

 被引用回数:16 パーセンタイル:13.58(Multidisciplinary Sciences)

A fundamental issue concerning iron-based superconductivity is the roles of electronic nematicity and magnetism in realising high transition temperature ($$T_c$$). To address this issue, FeSe is a key material, as it exhibits a unique pressure phase diagram involving nonmagnetic nematic and pressure-induced antiferromagnetic ordered phases. However, as these two phases in FeSe have considerable overlap, how each order affects superconductivity remains perplexing. Here we construct the three-dimensional electronic phase diagram, temperature ($$T$$) against pressure ($$P$$) and iso-valent S-substitution ($$x$$), for FeSe$$_{1-x}$$S$$_x$$. By simultaneously tuning chemical and physical pressures, against which the chalcogen height shows a contrasting variation, we achieve a complete separation of nematic and antiferromagnetic phases. In between, an extended nonmagnetic tetragonal phase emerges, where $$T_c$$ shows a striking enhancement. The completed phase diagram uncovers that high-$$T_c$$ superconductivity lies near both ends of the dome-shaped antiferromagnetic phase, whereas $$T_c$$ remainslow near the nematic critical point.

論文

Direct observation of lattice symmetry breaking at the hidden-order transition in URu$$_2$$Si$$_2$$

利根川 翔*; 笠原 成*; 福田 竜生; 杉本 邦久*; 安田 伸広*; 鶴原 悠悟*; 渡邊 大樹*; 水上 雄太*; 芳賀 芳範; 松田 達磨*; et al.

Nature Communications (Internet), 5, p.4188_1 - 4188_7, 2014/06

 被引用回数:40 パーセンタイル:7.69(Multidisciplinary Sciences)

We report on the observation of lattice symmetry breaking from the fourfold to twofold structure by high-resolution synchrotron X-ray diffraction measurements at zero field. Small orthorhombic symmetry-breaking distortion sets in at the transition temperature with a jump, uncovering the weakly first-order nature of the hidden-order transition. This distortion is observed only in ultra pure samples, implying a highly unusual coupling nature between the electronic pneumaticity and underlying lattice.

論文

Electronic nematicity above the structural and superconducting transition in BaFe$$_2$$(As$$_{1-x}$$P$$_x$$)$$_2$$

笠原 成*; Shi, H. J.*; 橋本 顕一郎*; 利根川 翔*; 水上 雄太*; 芝内 孝禎*; 杉本 邦久*; 福田 竜生; 寺嶋 孝仁*; Nevidomskyy, A. H.*; et al.

Nature, 486(7403), p.382 - 385, 2012/06

 被引用回数:285 パーセンタイル:0.47(Multidisciplinary Sciences)

The electron nematicity, which break rotational symmetry of the crystal lattice, has been recently observed in high-$$T_c$$ superconductors. In iron-pnictides, it has been associated with the tetragonal-to-orthorhombic structural transition at $$T_s$$, and the observations has been limited in the orthorhombic phase or in the tetragonal phase under uniaxial strain. In this investigation we provide magnetic torque measurements, a thermodynamic evidence which clearly shows the development of nematicity well above $$T_s$$ and the persistence in the nonmagnetic superconducting regime. Combined with synchrotron X-ray measurements, our results identify two distinct temperatures-one at $$T^ast$$, signifying a true nematic transition, and the other at $$T_s$$ ($$< T^ast$$), which we show to be not a true phase transition, but rather what we refer to as a "meta-nematic transition", in analogy to the well-known metamagnetic transition in the theory of magnetism.

口頭

LaFeAsO$$_{1-y}$$の最適ドープ試料における磁場侵入長測定から見た超伝導ギャップ構造

水上 雄太*; 川本 雄太*; Goh, S. K.*; 石角 元志*; 石田 茂之*; 鬼頭 聖*; 伊豫 彰*; 永崎 洋*; 社本 真一; 芝内 孝禎*; et al.

no journal, , 

今回われわれは母物質LaFeAsOにおいて酸素欠損させることにより得られる超伝導体LaFeAsO$$_{1-y}$$の最適ドープ試料(T$$_{rm c}$$$$sim$$25K)を用いて、準粒子の低エネルギー励起を直接観測可能な磁場侵入長測定を500mK(T/(T$$_{rm c}$$$$sim$$0.02)まで行った。講演では磁場侵入長の温度依存性の詳細を報告し、超伝導ギャップ構造について議論したい。

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