Three-band s± Eliashberg theory and the superconducting gaps of iron pnictides

G. A. Ummarino; M. Tortello; D. Daghero; R. S. Gonnelli

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Three-band s± Eliashberg theory and the superconducting gaps of iron pnictides

机译：三带s±Eliashberg理论与铁离子的超导能隙

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Superconductivity in iron pnictides has been recently proposed to be due to spin-fluctuation mediated coupling between hole and electron bands with order parameters of opposite sign. BCS multiband models give qualitative predictions but cannot simultaneously reproduce the experimental values of critical temperature and energy gaps. We show, instead, that a three-band strong-coupling Eliashberg model can quantitatively reproduce the gaps and their temperature dependence in both the 1111 and 122 families. We also show that this requires small typical boson energies (in agreement with experiments) and high values of the electron-boson coupling constants.

机译：最近有人提出，铁素化物中的超导性是由于自旋涨落介导的空穴和电子带之间的耦合具有相反符号的有序参数。 BCS多频带模型给出了定性预测，但无法同时再现临界温度和能隙的实验值。相反，我们表明，三带强耦合Eliashberg模型可以定量地再现1111和122系列中的缺口及其对温度的依赖性。我们还表明，这需要较小的典型玻色子能量（与实验一致）和较高的电子玻色子耦合常数值。

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来源
《Physical review》 |2009年第17期|172503.1-172503.4|共4页
作者
G. A. Ummarino; M. Tortello; D. Daghero; R. S. Gonnelli;
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作者单位

Dipartimento di Fisica and CNISM, Politecnico di Torino, Corso Duca degli Abruzzi 24, 10129 Torino, Italy;

Dipartimento di Fisica and CNISM, Politecnico di Torino, Corso Duca degli Abruzzi 24, 10129 Torino, Italy;

Dipartimento di Fisica and CNISM, Politecnico di Torino, Corso Duca degli Abruzzi 24, 10129 Torino, Italy;

Dipartimento di Fisica and CNISM, Politecnico di Torino, Corso Duca degli Abruzzi 24, 10129 Torino, Italy;

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ternary, quaternary and multinary compounds (including Chevrel phases, borocarbides, etc.); BCS theory and its development; nonconventional mechanisms (spin fluctuations, polarons and bipolarons, resonating valence bond model, anyon mechanism, marginal fermi liquid, luttinger liquid, etc.);

机译：三元;四元和多元化合物（包括Chevrel相;硼碳化物等）;BCS理论及其发展;非常规机制（自旋涨落;极化子和双极化子;共振价键模型;任意子机制;边缘费米液体;卢汀液体等）;

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专利

1. The Phenomenology of Iron Pnictides Superconductors Explained in the Framework of s-Wave Three-Band Eliashberg Theory [J] . G. A. Ummarino Advances in condensed matter physics . 2010,第Null期

机译：s波三频Eliashberg理论框架中解释的铁离子超导体的现象学
2. The Phenomenology of Iron Pnictides Superconductors Explained in the Framework ofs-Wave Three-Band Eliashberg Theory [J] . G. A.Ummarino Advances in condensed matter physics . 2010,第2期

机译：s波三频Eliashberg理论框架中解释的铁离子超导体的现象学
3. Multiband s± Eliashberg theory and temperature-dependent spin-resonance energy in iron pnictide superconductors [J] . G. A. Ummarino Physical review . 2011,第9期

机译：锡铁超导体中的多频带s±Eliashberg理论和温度相关的自旋共振能
4. Femtosecond dynamics of superconducting and spin-density wave gaps in pnictides [C] . Kim K. W., Pashkin A., Beyer M., 2011 Conference on lasers and electro-optics . 2011

机译：飞秒超导和自旋密度波隙的飞秒动力学
5. Modification of Iron Pnictide and MgB2 Thin Films Using Focused He+ Ion Beam Irradiation for Superconducting Devices [D] . Kasaei, Leila. 2019

机译：用于超导装置的聚焦HE +离子束照射的铁预态和MGB2薄膜的修饰
6. Nematic superconducting state in iron pnictide superconductors [O] . Jun Li, Paulo J. Pereira, Jie Yuan, -1

机译：锡铁超导体中的向列超导态
7. Three-band s± Eliashberg theory and the superconducting gaps of iron pnictides [O] . Ummarino, Giovanni, Tortello, Mauro, Daghero, Dario, 2009

机译：三带s±Eliashberg理论和铁离子的超导能隙

Three-band s± Eliashberg theory and the superconducting gaps of iron pnictides

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