Optical anisotropy in the electronic nematic phase of FeSe

M. Chinotti; A. Pal; L. Degiorgi; A. E. Boehmer; P. C. Canfield

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Optical anisotropy in the electronic nematic phase of FeSe

机译：FeSe电子向列相的光学各向异性

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At ambient pressure, FeSe undergoes a structural, tetragonal-to-orthorhombic, phase transition at T_s ≃ 90 K without any magnetic ordering on further cooling. FeSe thus provides an arena for examining the nematic phase without the complications following the reconstruction of the Fermi surface due to the antiferromagnetic order within the orthorhombic state. We perform an optical-reflectivity investigation across the structural transition, as a function of uniaxial stress in order to detwin the specimen. These measurements reveal a hysteretic behavior of the anisotropic optical response to uniaxial stress for T ≤ T_s, which extends to energy scales of about 0.5 eV. The sign changes of the optical anisotropy between distinct energy intervals suggest a complex evolution of the polarized electronic structure in the nematic phase. The temperature dependence of the optical anisotropy for the fully detwinned specimen is furthermore acting as a proxy for the order parameter of nematicity.

机译：在环境压力下，FeSe在T_s≃90 K处经历了从四方晶向正交晶的结构相变，而在进一步冷却时没有任何磁序。因此，FeSe提供了一个舞台，用于检查向列相，而不会由于正交晶态内的反铁磁有序而在费米表面重建后产生复杂性。我们进行结构反射过程中的光反射性研究，作为单轴应力的函数，以使样品相互缠绕。这些测量结果揭示了各向异性光学响应对T≤T_s的单轴应力的滞后行为，该现象扩展到约0.5 eV的能级。不同能量间隔之间的光学各向异性的符号变化表明，向列相中极化电子结构的复杂演化。完全解缠的样品的光学各向异性的温度依赖性还充当向列性阶数参数的代理。

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《Physical review》 |2017年第12期|121112.1-121112.6|共6页
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M. Chinotti; A. Pal; L. Degiorgi; A. E. Boehmer; P. C. Canfield;
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Laboratorium fuer Festkoerperphysik, ETH - Zurich, 8093 Zurich, Switzerland;

Laboratorium fuer Festkoerperphysik, ETH - Zurich, 8093 Zurich, Switzerland;

Laboratorium fuer Festkoerperphysik, ETH - Zurich, 8093 Zurich, Switzerland;

Ames Laboratory, Ames, Iowa 50010, USA;

Ames Laboratory, Ames, Iowa 50010, USA;

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1. Optical anisotropy in the electronic nematic phase of FeSe [J] . M. Chinotti, A. Pal, L. Degiorgi, Physical Review. B, Condensed Matter . 2017,第11a12CD期

机译：FESE的电子向量中的光学各向异性
2. Ingredients for the electronic nematic phase in FeSe revealed by its anisotropic optical response [J] . M. Chinotti, A. Pal, L. Degiorgi, Physical review. B, Condensed Matter And Materals Physics . 2018,第9期

机译：各向异性光学响应揭示了FeSe中电子向列相的成分
3. Ingredients for the electronic nematic phase in FeSe revealed by its anisotropic optical response [J] . Chinotti M., Pal A., Degiorgi L., Physical review, B . 2018,第9期

机译：通过其各向异性光学响应揭示了FESE中的电子向量的成分
4. Nanosecond electric modification of order parameter in nematic and isotropic phases of materials with negative and positive dielectric anisotropy [C] . Bing-Xiang Li, Volodymyr Borshch, Sergij V. Shiyanovskii, Emerging liquid crystal technologies X . 2015

机译：具有负和正介电各向异性的材料的向列和各向同性相中阶参数的纳秒电修饰
5. A nematic liquid crystal phase and amplitude spatial light modulator for optical signal processing applications. [D] . Cassarly, William James. 1990

机译：向列液晶相位和幅度空间光调制器，用于光信号处理应用。
6. Superconducting gap anisotropy sensitive to nematic domains in FeSe [O] . Takahiro Hashimoto, Yuichi Ota, Haruyoshi Q. Yamamoto, -1

机译：FeSe中向列域敏感的超导间隙各向异性
7. Optical anisotropy in the electronic nematic phase of FeSe [O] . M. Chinotti, A. Pal, L. Degiorgi, 2017

机译：FESE的电子向量中的光学各向异性

Optical anisotropy in the electronic nematic phase of FeSe

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