Phase diagram and superconducting states in LaFeAsO1-xH x based on the multiorbital extended Hubbard model

Y. Yamakawa; S. Onari; H. Kontani; N. Fujiwara; S. Iimura; H. Hosono

doi:10.1103/PhysRevB.88.041106

Phase diagram and superconducting states in LaFeAsO_1-xH _x based on the multiorbital extended Hubbard model

Y. Yamakawa, S. Onari, H. Kontani, N. Fujiwara, S. Iimura, H. Hosono

Graduate School of Natural Science and Technology

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

To understand the recently established unique magnetic and superconducting phase diagram of LaFeAsO_1-xH_x, we analyze the realistic multiorbital tight-binding model for x=0-0.4 beyond the rigid-band approximation. Both the spin and orbital susceptibilities are calculated in the presence of the Coulomb and charge quadrupole interactions. It is found that both orbital and spin fluctuations strongly develop at both x∼0 and 0.4, due to the strong violation of the rigid-band picture in LaFeAsO _1-xH_x. Based on this result, we discuss the experimental phase diagram, especially the double-dome superconducting phase. Moreover, we show that the quadrupole interaction is effectively produced by the vertex correction due to Coulomb interaction, resulting in the mutual development of spin and orbital fluctuations.

Original language	English
Article number	041106
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	88
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.88.041106
Publication status	Published - Jul 22 2013

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.88.041106

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abstract = "To understand the recently established unique magnetic and superconducting phase diagram of LaFeAsO1-xHx, we analyze the realistic multiorbital tight-binding model for x=0-0.4 beyond the rigid-band approximation. Both the spin and orbital susceptibilities are calculated in the presence of the Coulomb and charge quadrupole interactions. It is found that both orbital and spin fluctuations strongly develop at both x∼0 and 0.4, due to the strong violation of the rigid-band picture in LaFeAsO 1-xHx. Based on this result, we discuss the experimental phase diagram, especially the double-dome superconducting phase. Moreover, we show that the quadrupole interaction is effectively produced by the vertex correction due to Coulomb interaction, resulting in the mutual development of spin and orbital fluctuations.",

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T1 - Phase diagram and superconducting states in LaFeAsO1-xH x based on the multiorbital extended Hubbard model

AU - Yamakawa, Y.

AU - Onari, S.

AU - Kontani, H.

AU - Fujiwara, N.

AU - Iimura, S.

AU - Hosono, H.

PY - 2013/7/22

Y1 - 2013/7/22

N2 - To understand the recently established unique magnetic and superconducting phase diagram of LaFeAsO1-xHx, we analyze the realistic multiorbital tight-binding model for x=0-0.4 beyond the rigid-band approximation. Both the spin and orbital susceptibilities are calculated in the presence of the Coulomb and charge quadrupole interactions. It is found that both orbital and spin fluctuations strongly develop at both x∼0 and 0.4, due to the strong violation of the rigid-band picture in LaFeAsO 1-xHx. Based on this result, we discuss the experimental phase diagram, especially the double-dome superconducting phase. Moreover, we show that the quadrupole interaction is effectively produced by the vertex correction due to Coulomb interaction, resulting in the mutual development of spin and orbital fluctuations.

AB - To understand the recently established unique magnetic and superconducting phase diagram of LaFeAsO1-xHx, we analyze the realistic multiorbital tight-binding model for x=0-0.4 beyond the rigid-band approximation. Both the spin and orbital susceptibilities are calculated in the presence of the Coulomb and charge quadrupole interactions. It is found that both orbital and spin fluctuations strongly develop at both x∼0 and 0.4, due to the strong violation of the rigid-band picture in LaFeAsO 1-xHx. Based on this result, we discuss the experimental phase diagram, especially the double-dome superconducting phase. Moreover, we show that the quadrupole interaction is effectively produced by the vertex correction due to Coulomb interaction, resulting in the mutual development of spin and orbital fluctuations.

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Phase diagram and superconducting states in LaFeAsO_1-xH _x based on the multiorbital extended Hubbard model

Abstract

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