Contribution of interlayer hybridization to the electronic structure in iron pnictides: A study of EELS and first-principles calculations

Chao Ma; Huaixin Yang; Huanfang Tian; Honglong Shi; Zhiwei Wang; Jianqi Li

doi:10.1088/0953-8984/25/11/115503

Contribution of interlayer hybridization to the electronic structure in iron pnictides: A study of EELS and first-principles calculations

Chao Ma^*, Huaixin Yang, Huanfang Tian, Honglong Shi, Zhiwei Wang, Jianqi Li

^*Corresponding author for this work

CAS - Institute of Physics

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

2 Citations (Scopus)

Abstract

Using electron energy loss spectroscopy (EELS) measurements and first-principles electronic structure calculations, the significant interlayer hybridization between the insulating layers (ReO or Ba) and the conducting FeAs layers was investigated in the layered iron pnictides, which is quite different from the case in the cuprate superconductors. This interlayer hybridization would result in an increase in the bandwidth near the Fermi level and interorbital charge transfer in the Fe 3d orbitals, which subsequently leads to a decrease in the Fe local moment and the modification of the Fermi surface topology. Therefore, a three-dimensional character of the electronic structure due to the interlayer hybridization is expected, as observed in previous experiments. These findings indicate that reduced dimensionality is no longer a necessary condition in the search for high-T_c superconductors in iron pnictides.

Original language	English
Article number	115503
Journal	Journal of Physics Condensed Matter
Volume	25
Issue number	11
DOIs	https://doi.org/10.1088/0953-8984/25/11/115503
Publication status	Published - 20 Mar 2013
Externally published	Yes

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title = "Contribution of interlayer hybridization to the electronic structure in iron pnictides: A study of EELS and first-principles calculations",

abstract = "Using electron energy loss spectroscopy (EELS) measurements and first-principles electronic structure calculations, the significant interlayer hybridization between the insulating layers (ReO or Ba) and the conducting FeAs layers was investigated in the layered iron pnictides, which is quite different from the case in the cuprate superconductors. This interlayer hybridization would result in an increase in the bandwidth near the Fermi level and interorbital charge transfer in the Fe 3d orbitals, which subsequently leads to a decrease in the Fe local moment and the modification of the Fermi surface topology. Therefore, a three-dimensional character of the electronic structure due to the interlayer hybridization is expected, as observed in previous experiments. These findings indicate that reduced dimensionality is no longer a necessary condition in the search for high-Tc superconductors in iron pnictides.",

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T1 - Contribution of interlayer hybridization to the electronic structure in iron pnictides

T2 - A study of EELS and first-principles calculations

AU - Ma, Chao

AU - Yang, Huaixin

AU - Tian, Huanfang

AU - Shi, Honglong

AU - Wang, Zhiwei

AU - Li, Jianqi

PY - 2013/3/20

Y1 - 2013/3/20

N2 - Using electron energy loss spectroscopy (EELS) measurements and first-principles electronic structure calculations, the significant interlayer hybridization between the insulating layers (ReO or Ba) and the conducting FeAs layers was investigated in the layered iron pnictides, which is quite different from the case in the cuprate superconductors. This interlayer hybridization would result in an increase in the bandwidth near the Fermi level and interorbital charge transfer in the Fe 3d orbitals, which subsequently leads to a decrease in the Fe local moment and the modification of the Fermi surface topology. Therefore, a three-dimensional character of the electronic structure due to the interlayer hybridization is expected, as observed in previous experiments. These findings indicate that reduced dimensionality is no longer a necessary condition in the search for high-Tc superconductors in iron pnictides.

AB - Using electron energy loss spectroscopy (EELS) measurements and first-principles electronic structure calculations, the significant interlayer hybridization between the insulating layers (ReO or Ba) and the conducting FeAs layers was investigated in the layered iron pnictides, which is quite different from the case in the cuprate superconductors. This interlayer hybridization would result in an increase in the bandwidth near the Fermi level and interorbital charge transfer in the Fe 3d orbitals, which subsequently leads to a decrease in the Fe local moment and the modification of the Fermi surface topology. Therefore, a three-dimensional character of the electronic structure due to the interlayer hybridization is expected, as observed in previous experiments. These findings indicate that reduced dimensionality is no longer a necessary condition in the search for high-Tc superconductors in iron pnictides.

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Contribution of interlayer hybridization to the electronic structure in iron pnictides: A study of EELS and first-principles calculations

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